Innovation and Knowledge Centre for Smart Infrastructure and Construction - Collaborative Programme Tranche 1

Lead Research Organisation: University of Cambridge

Department Name: Engineering

Abstract

Infrastructure represents a large part of the UK's asset base, and its efficient management and maintenance are vital to the economy and society. The application of emerging technologies to advanced health monitoring of existing critical infrastructure assets can help to better quantify and define the extent of ageing and the consequent remaining design life of infrastructure, thereby reducing the risk of failure. Emerging technologies also have the potential to transform the industry through a whole-life approach to achieving sustainability in construction and infrastructure in an integrated way - design and commissioning, the construction process, exploitation and use, and eventual de-commissioning. Crucial elements of these emerging technologies include the application of the latest sensor technologies, data management tools and manufacturing processes to the construction industry, both during infrastructure construction and throughout its life. There is a substantial market for exploitation of these technologies by the construction industry, particularly contractors, specialist instrumentation companies and owners of infrastructure.
In this proposal, we seek to build on the creation of the Innovation and Knowledge Centre for Smart Infrastructure and Construction which brings together leading research groups in the University of Cambridge Departments of Engineering and Architecture, Computer Laboratory and Judge Business School. The Collaborative Programme will see these groups working with industrialists and other critical stakeholders on challenging research projects which deliver practical solutions to the problems that industry faces and which promote the dissemination and adoption of valuable emerging technologies.
The development and commercialisation of emerging technologies can provide radical changes in the construction and management of infrastructure, leading to considerably enhanced efficiencies, economies and adaptability. The objective is to create 'Smart Infrastructure' with the following attributes: (a) minimal disturbance and maximum efficiency during construction, (b) minimal maintenance for new infrastructure and optimum management of existing infrastructure, (c) minimal failures even during extreme events (fire, natural hazards, climate change), and (d) minimal waste materials at the end of the life cycle. The Centre focuses on the innovative use of emerging technologies in sensor and data management (e.g. fibre optics, MEMS, computer vision, power harvesting, Radio Frequency Identification (RFID), and Wireless Sensor Networks). These are coupled with emerging best practice in the form of the latest manufacturing and supply chain management approaches applied to construction and infrastructure (e.g. smart building components for life-cycle adaptive design, innovative manufacturing processes, integrated supply chain management, and smart management processes from building to city scales). It aims to develop completely new markets and to achieve breakthroughs in performance.
Considerable business opportunities will be created for construction companies, and for other industries such as IT, electronics and materials. The Centre is able to respond directly and systematically to the input received from industry partners on what is required to address critical issues. Through the close involvement of industry in technical development as well as in demonstrations in real construction projects, the commercialisation activities of emerging technologies can be progressed to a point where they can be licensed to industry.
The outputs of the Centre can provide the construction industry, infrastructure owners and operators with the means to ensure that very challenging new performance targets can be met. Furthermore breakthroughs will make the industry more efficient and hence more profitable. They can also give UK companies a competitive advantage in the increasingly global construction market.

Planned Impact

The total value of existing civil engineering works in the UK is £800 billion. It is estimated that the UK will need to spend in the region of £400 billion on new and refurbished infrastructure by 2020 in order to address historic underinvestment and speed the transition to a low carbon economy. Since infrastructure is a large part of the UK's assets, it is vital to the economy and to society that efficient management and maintenance of infrastructure should be an ongoing commitment. The construction industry accounts for a significant proportion of the national GDP and both government and industry have been pushing an agenda aimed at improving the efficiency and quality of delivery of all constructed facilities. In addition, the industry accounts for a significant proportion of greenhouse gas emissions, particularly as a result of cement and steel production, and an entirely new approach to optimal use of resources is needed and being demanded by the UK government. Radical changes in the construction industry are needed, leading to dramatic improvements in a wide range of key performance indicators for the industry, not least of which is productivity as well as competiveness for UK industry in a global market. The Centre aims to achieve the following impacts:
(a) Fostering scientific research in the application and adoption of emerging smart technologies to develop a new academic network in the area of Smart Infrastructure and Construction. (b) Systemisation, standardisation, and ultimately optimisation of construction processes. This will lead to a common systems architecture for construction, allowing transformation from 'one-off' projects to 'service oriented customisable construction factories' with clear commercial and economic benefit. (c) Creation of a 'living structure' which can be continually evaluated and thereby its performance and operation systematically assessed and improved over time. This will be done by constructing infrastructure composed of 'smart' building blocks (eg embedded fibre optic sensors, MEMS sensors and RFID). (d) Reconsideration of infrastructure design and construction in order to provide maximal future proofing through reconfigurability. The need for flexibility in infrastructure systems stems from considerable uncertainty about the scale of cost of, and demand on, that infrastructure, in the light of technological developments as well as changing government policies, macro-economics, demographics, and social behaviour. (e) Quantification of the extent of ageing and the consequent remaining design life of UK infrastructure, using emerging technologies, so that the risk of systemic failure will be reduced and public services improved. Infrastructure owners, both in the public and private sectors, and operators will have the means to ensure that very challenging new performance targets can be met and large cost savings can be made to maintain such assets. (f) Development of new skilled work forces that will realize the step changes addressed in the proposal and will make the construction and infrastructure industry more efficient and hence more profitable. It seeks to reinvigorate the industry to adopt technologies and management methods that will rival other manufacturing sectors such as the aerospace and automotive industries. The construction and infrastructure industry will be more sustainable and competitive, thereby improving the environment, the economy and society in general.

Funded Value:

£2,311,584

Funded Period:

Sep 12 - Sep 16

Funder:

EPSRC

Project Status:

Closed

Project Category:

Research Grant

Project Reference:

EP/K000314/1

Principal Investigator:

Lord Robert Mair

Research Topic:

Unclassified

Organisations

People	ORCID iD
Lord Robert Mair (Principal Investigator)
Jon Crowcroft (Co-Investigator)
Duncan McFarlane (Co-Investigator)
Roberto Cippola (Co-Investigator)
Julian Mark Allwood (Co-Investigator)
Ying Jin (Co-Investigator)
Cecilia Mascolo (Co-Investigator)
Ashwin Seshia (Co-Investigator)
Marcial Echenique (Co-Investigator)
Paul Bernard Heffernan (Co-Investigator)
Campbell Middleton (Co-Investigator)
Kenichi Soga (Co-Investigator)
Ajith Kumar Narayanan Parlikad (Co-Investigator)
Stefan Scholtes (Co-Investigator)
Jize Yan (Researcher)

Publications

Author Name Title Publication Date Published

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10 25 50

Becerik-Gerber B (2014) Civil Engineering Grand Challenges: Opportunities for Data Sensing, Information Analysis, and Knowledge Discovery in Journal of Computing in Civil Engineering

Liang Z (2014) A tiered modelling approach for condition-based maintenance of industrial assets with load sharing interaction and fault propagation in IMA Journal of Management Mathematics

Rasmekomen N. (2014) Optimising maintenance of multi-component systems with degradation interactions in IFAC Proceedings Volumes (IFAC-PapersOnline)

Jia Y (2014) An auto-parametrically excited vibration energy harvester in Sensors and Actuators A: Physical

Rasmekomen N (2014) Optimising Maintenance of Multi-Component Systems with Degradation Interactions in IFAC Proceedings Volumes

Jia Y (2014) White Noise Responsiveness of an AlN Piezoelectric MEMS Cantilever Vibration Energy Harvester in Journal of Physics: Conference Series

Soga, K (2014) Crossrail demonstrates how wireless sensing changes game for asset managers

Ma M (2014) Understanding Beijing's Moving Urban Fringe through a Spatial Equilibrium Model in International Review for Spatial Planning and Sustainable Development

Palinginis, E. (2014) Full-Body Occlusion Handling and Density Analysis in Traffic Video-Surveillance Systems

Mukai T (2014) The Competitiveness of Continuous Monitoring of Residential PV Systems: A Model and Insights From the Japanese Market in IEEE Transactions on Sustainable Energy

Masood T (2014) Integrating through-life engineering service knowledge with product design and manufacture in International Journal of Computer Integrated Manufacturing

Webb G (2014) Analysis of Structural Health Monitoring Data from Hammersmith Flyover in Journal of Bridge Engineering

Srinivasan R (2014) Semi-Markov Decision Process With Partial Information for Maintenance Decisions in IEEE Transactions on Reliability

Do C (2014) Low power MEMS oscillators for sensor applications

Jess, T (2014) Evaluating the Applicability of Multin Agent Software for Implementing Distributed Industrial Data Management Approaches

Wan, L (2014) Review on Applied Urban Modeling and New Trends of Urban Spatial Policy Models in Urban Planning Forum

Woodall, P (2014) A Framework for Detecting Unnecessary Industrial Data in ETL Processes

Gue C (2014) Geotechnical Aspects of Underground Construction in Soft Ground

Jess, T (2014) A Framework for Identifying suitable cases for using market based approaches in industrial data acquisition

Middleton C (2014) Smart Infrastructure - Are We Delivering on the Promise?

German, S. (2014) Automated Computer Vision-Based Detection of Exposed Transverse Reinforcement for Post-Earthquake Safety Assessments",

Nawaz S (2014) Mining users' significant driving routes with low-power sensors

German, S. (2014) "Automated Crack Pattern Measurements for Rapid Post-Earthquake Safety Assessment",

Yilmaz, G (2015) Identifying and validating hazards in support of information future-proofing - case study of a building

Kumar P (2015) The rise of low-cost sensing for managing air pollution in cities. in Environment international

Xu X (2015) Performance monitoring of timber structures in underground construction using wireless SmartPlank in Smart Structures and Systems

Brilakis, I (2015) Digital infrastructure models: a necessary foundation for the next IT wave

McFarlane, D (2015) What makes an intelligent infrastructure asset?

Jia Y (2015) Cantilevers-on-membrane design for broadband MEMS piezoelectric vibration energy harvesting in Journal of Physics: Conference Series

Radopoulou S (2015) Patch detection for pavement assessment in Automation in Construction

Gibbons, N. (2015) Monitoring the early age behaviour of prestressed concrete beams using fibre optic sensors

Silva, E. A (2015) Game changer - modelling the future with dynamic simulation

Kim M (2015) A study on influencing factors and revitalization of the adoption of off-site construction - Case study on the construction market of the United Kingdom - ??? ?? ?? ??? ?? ?? ? ??? ?? ?? - ?? ?? ?? ?? ?? - in Journal of KIBIM

Zhang G (2015) A Sparsity-Inducing Optimization-Based Algorithm for Planar Patches Extraction from Noisy Point-Cloud Data A sparsity-inducing optimization-based algorithm for plane extraction in Computer-Aided Civil and Infrastructure Engineering

Elshafie, M.Z.E.B (2015) A tale of two tunnels - Understanding the performance of existing and new tunnels during construction works

Wong, J. (2015) Three dimensional simulation of hydraulic fracturing on fault using lattice element method

Elshafie M Z E (2015) Numerical Modelling of CFRP Shear-Strengthened Pre-Stressed Concrete Beams

Jeon J (2015) Framework of aftershock fragility assessment-case studies: older California reinforced concrete building frames Aftershock Fragility Assessment Framework in Earthquake Engineering & Structural Dynamics

Hagen-Zanker A (2015) Computational Science and Its Applications -- ICCSA 2015

Nakashima M (2015) Mechanical behaviour of a sprayed concrete lining isolated by a sprayed waterproofing membrane in Tunnelling and Underground Space Technology

Rahman R; (2015) Shear strengthening of exterior beam-column joints using embedded carbon fibre reinforced polymer bars

Kumar, V (2015) VPN Accelerator card in hardware in International Journal of Science Engineering and Technology

Yilmaz, G (2015) International Journal of Computer Integrated Manufacturing

Nawaz S (2015) Monitoring A Large Construction Site Using Wireless Sensor Networks

Patraucean V. (2015) "State of Research in Automatic As-Built Modelling" in Journal of Advanced Engineering Informatics, Elsevier, 29(2), April 2015, Pp. 162

Adams J. (2015) Dynamic maintenance based on criticality in electricity network in IET Conference Publications

Jahanshahi K (2015) The built environment typologies in the UK and their influences on travel behaviour: new evidence through latent categorisation in structural equation modelling in Transportation Planning and Technology

Radopoulou, S.C. (2015) Detection of Multiple Road Defects for Pavement Condition Assessment

Gibbons, N. (2015) Monitoring the early age behaviour of prestressed concrete beams using fibre optic sensors

Gibbons N (2015) Monitoring the early age behaviour of prestressed concrete beams using fibre optic sensors

Artistic and Creative Products
Key Findings
Impact Summary
Policy Influence
Further Funding
Research Databases and Models
Research Tools and Methods
Collaboration
Intellectual Property
Software and Technical Products
Spin Outs
Engagement Activities


Title	Stand up comedy (PK)
Description	Phil Keenan our Business Development Manager did a solo stand up comedy performance at the renowned comedy sketch club evening 'The Bright Club' at the Portland Arms pub in Cambridge. The performance was about the CSIC Severn Trent fibre optic monitoring project.
Type Of Art	Performance (Music, Dance, Drama, etc)
Year Produced	2015
Impact	Outreach to a broad audience in a humorous and accessible way


Description	CSIC's research has resulted in a range of outcomes which have delivered direct insights to assist in delivery of smart infrastructure and construction. These include: • A robust and innovative Distributed Fibre Optic Sensing (DFOS) optical fibre installation technique for piles, retaining walls and tunnels which was used and refined in a series of case studies, providing important new insights into detailed microstrain soil-structure interaction mechanisms in large, complex civil engineering structures • Development of a range of other sensing technologies for civil engineering applications, including photogrammetry, MEMS strain sensors, MEMS energy harvesting solutions, • Use of developed sensing solutions to research behaviour of real infrastructure, including developing further fundamental research insights into challenges such as soil-structure interaction; behaviour and condition of ageing masonry structures; behaviour of tunnels and shafts; • Tools for whole life, value based asset management, including futureproofing frameworks, decision support frameworks, machine learning solutions for assessing criticality and optimising maintenance strategies; • Research into use of the ground to provide heating and cooling solutions at a district level, and the impacts of underground development on this; '3-dimensional' planning of the sub-surface. We have also delivered outputs to enable exploitation of our research outputs by industry and funders. These include: • Development of guidance and policy inputs including: 4 ICE Guidance Books https://bit.ly/2O2NmyY; Report for DfT on smart infrastructure https://bit.ly/2XVhRLA - this was picked up in DfT policy documents; Input to National Infrastructure Commission 'Data for the Public Good' report; • Three monitoring/ sensing spinouts: 8Power; Utterberry; Epsimon • Industry training courses: CSIC delivered several training courses to industry, including open courses and tailored courses at request. Attendees came from a wide range of contractors, consultants and asset owners • CSIC staff have been invited to speak at industry-focussed conferences and meetings, including Ground Engineering, EcoBuild, National Infrastructure Forum, Institution of Civil Engineers.
Exploitation Route	CSIC's work is already being implemented and taken forward, both within academia and outside. The Phase 1 funding has resulted in further Phase 2 IKC funding (£5M), and in £5M of additional grant funding from a range of sources including EPSRC, Innovate UK, Horizon 2020 and industry funding. CSIC's technologies have been deployed to monitor a range of infrastructure including Network Rail bridges and cuttings, tall building under construction, heritage assets subject to impact from new construction. CSIC has been active in influencing policy. The Department for Transportation (DfT) commissioned a report from CSIC (https://bit.ly/2XVhRLA), and our work has been referenced by National Infrastructure Commission in, 'Data for the Public Good' December 2017, and the Infrastructure Projects Authority (IPA) Report 'Transforming Infrastructure Performance' Dec 2017.
Sectors	Aerospace, Defence and Marine,Communities and Social Services/Policy,Construction,Digital/Communication/Information Technologies (including Software),Education,Electronics,Energy,Environment,Healthcare,Government, Democracy and Justice,Manufacturing, including Industrial Biotechology,Security and Diplomacy,Transport
URL	http://www-smartinfrastructure.eng.cam.ac.uk/


Description	NOTE - Due to the wide scope of CSIC activities, only the briefest description can be given here. For further information please see our CSIC Annual Reviews and at our website http://www-smartinfrastructure.eng.cam.ac.uk/news/newsletters. The engineering, management, maintenance and upgrading of infrastructure has required fresh thinking to minimise use of materials, energy and labour whilst still ensuring resilience. This can only be achieved by a full understanding of the performance of the infrastructure, both during its construction and throughout its design life, through the application of innovative sensor technologies and other emerging technologies. The key aim of CSIC is to transform the construction industry through a whole-life approach to achieving sustainability in construction and infrastructure in an integrated way, employing emerging technologies from world-leading research at Cambridge. This covers: design and commissioning, the construction process, exploitation and use, and eventual de-commissioning Crucial elements of these emerging technologies are the innovative application of the latest sensor technologies, data management tools, manufacturing processes and supply chain management processes to the construction industry, both during infrastructure construction and throughout its design life. CSIC has sought to integrate these innovations for exploitation and knowledge transfer - something which was new to the UK construction and infrastructure industry. CSIC work in development of sensor systems, use of the resultant data to understand the behaviour of structures, and work on improving value-based asset management approaches in construction and infrastructure, over the last 7 years (and some founding research preceding this), has led to the following impacts to industry: • development of robust sensing systems which have been deployed by industry including development of Fibre Optic Strain and Temperature Sensing including 'industry ready' solutions that can be deployed by on-site operatives, leading to Skanska, with substantial investment, setting up their own fibre optic sensing unit, CEMOPTICS • deployment of such sensing systems on a range of real construction and infrastructure projects has led to substantial savings and opportunities to do things differently. These include CSIC's project at Bevis Marks and St Mary Abchurch, where the deployment of the systems saved £6M (Bevis Marks) and over £1M (St Mary Abchurch), and led to wider benefits such as carbon savings (Bevis Marks and St Mary Abchurch) and preservation of a significant heritage asset in the heart of London (St Mary Abchurch) • a broad range of other monitoring deployments by industry including: monitoring of 150 year old operational structures by Network Rail (in collaboration with contractors and consultants e.g. Laing O Rourke, Aecom, Arup, Costain); monitoring of heritage assets by Dragados during the Bank station capacity upgrade works; monitoring of axial shortening in a tall building (Principle Tower). • as a result of the research and demonstration activities of CSIC, we have had direct input to a number of industry standards for deployment and use of sensors and resultant data in infrastructure and construction projects including input to ASTM fibre optic standards and inclusion of Fibre Optic Strain Sensing as a preferred method for monitoring pile load tests in the ICE Specification for piling and embedded retaining walls. • development of asset management theories and frameworks has led to a substantial change in the industry's approach to use and curation of actual data (as generated by the above sensors systems and other systems). Frameworks developed during CSIC work are now being deployed actively by industry partners, including Mott McDonald adopting the BIM maturity assessment tool (BMAT), and discussions with industry on wider adoption of BMAT As well as individual success cited above, there has been systemic influence of the combined CSIC outputs, both on industry practice and government policy. This is evidenced in our reports being specifically referenced by government (NIC and IPA) in calls for evidence and policy papers, and by National Infrastructure Commission in their 'Data for the Public Good' report, which led to the setting up of a national Digital Framework Task Group to deliver on the NIC's recommendations to government (and which Parlikad and Schooling remain closely involved with). Highways England has invested in an innovation project on Embedded Asset Sensing, which will evaluate and demonstrate different sensing solutions as part of the 'Smart Motorways' project, to improve condition monitoring on highways. This is currently in the 'Discover' phase, but will have completed its 'Develop' and possibly some 'Demonstrate' phases before REF submission. Total investment by HE in this programme of work is likely to be upwards of £500K before the REF deadline. We have further examples of CSIC being called in to advise industry when they have been unable to get solutions from existing industry practice. Many of these are confidential and cannot be referenced here. Aa an example CSIC has been employing new technologies for Network Rail to ameliorate concerns that a mainline route may be closed by rock falls when no mainstream monitoring technology has proved successful.
Sector	Construction,Digital/Communication/Information Technologies (including Software),Education,Energy,Environment,Government, Democracy and Justice,Manufacturing, including Industrial Biotechology,Culture, Heritage, Museums and Collections,Transport,Other


Description	APESS - CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	Acikgoz, S. Presenting research to Members of Parliament as a part of SET 2016
Geographic Reach	Europe
Policy Influence Type	Implementation circular/rapid advice/letter to e.g. Ministry of Health


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Artificial Intelligence in Transport
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Autonomous Vehicles
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Future of Flight
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Future of Mobility
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Hyperloop
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Chairman of the Department of Transport's Science Advisory Council, Professor Lord Robert Mair has influenced Department of Transport policy on Transport Infrastructure Efficiency Strategy
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As Head of CSIC responsible for producing Guidelines for Department of Transport on Condition Monitoring and Intelligent Infrastructure Professor Lord Robert Mair has Influenced systematic reviews, guidelines and policy documents
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As a member of the House of Lords Select Committee on Science and Technology, Professor Lord Robert Mair has influenced Government policy on the following topic (through publication of reports): Nuclear Research and Technology (published May 2017)
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	As a member of the House of Lords Select Committee on Science and Technology, Professor Lord Robert Mair has influenced Government policy on the following topic: Connected and Autonomous Vehicles (published March 2017)
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	Assistance and Membership of British Standards Institute
Geographic Reach	National
Policy Influence Type	Membership of a guidance committee


Description	BSI B/555 CB5 Strategic Planning Committee - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	BSI B/555 Committee on Design, Construction & Operational Data & Process Management for the Built Environment - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Best practice guides - contract with Institution of Civil Engineers for 6 publications on best practice due for publication in mid-late 2016
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers


Description	CSIC Annual Review 2014
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/files/CSIC_Annual_Review2014smlr.pdf/view


Description	CSIC Annual Review 2015
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/files/CSIC-Annual-Review-2015/view


Description	CSIC Annual Review 2016
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/files/csic-annual-review-2016/view


Description	CSIC Annual Review 2017
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/news-and-events/newsletters/csic-annual-review-2017-no...


Description	CSIC Annual Review 2018
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/news-and-events/csic-annual-review-2018-now-online


Description	CSIC Annual Review 2019
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers
URL	https://www-smartinfrastructure.eng.cam.ac.uk/news-and-events/annualreview2019


Description	CSIC hosted the workshop on Smart Infrastructure for the DFT Scientific Advisory Committee and DFT Agencies
Geographic Reach	National
Policy Influence Type	Implementation circular/rapid advice/letter to e.g. Ministry of Health


Description	Chair of the Department for Transport's (DfT's) Science Advisory Council
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Chairman of the Department of Transport's Science Advisory Council
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Collaboratory knowledge sharing with the Department for Business Innovation and Skills
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers


Description	Commissioner, Royal Commission for the Exhibition of 1851
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee
URL	https://www.royalcommission1851.org/about-us/


Description	DFOS training - CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	DOFS CERN short course / training CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	DOFS sensing short course - CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	Digital Catapult Crossrail PitStop - invited speaker - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Digital Framework Task Group JMS
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Digital Transformation Task Group - JMS
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Digital Transformation Task Group JMS
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	FBb sensing short course/training CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	H2020 short course / training CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	HS2 BIM Advisory Group JMS
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Highways England Innovation workshop - invited participant - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	ICE Asset Management 2015 conference - invited speaker - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	ICE Council annual strategy meeting - invited speaker and participant JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	ICE Triennial Summit - invited speaker - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a national consultation


Description	ISO TC59 SC13 Organization and digitization of information about buildings and civil engineering works - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	IStructE Invited speaker - international conference
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	Innovate UK Innovate 15 - invited speaker - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Institution of Civil Engineers State of the Nation 2020: Net-Zero
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	KTN Built evironment advisory board - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Maria Scott technical training CK
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	Member Transport Research and Innovation Board
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	Member of UK Treasury's Infrastructure UK Cost Review Panel
Geographic Reach	Local/Municipal/Regional
Policy Influence Type	Participation in advisory committee
Impact	New insights into factors influencing costs and efficiency in the construction sector


Description	Member of the House of Lords Select Committee on Science and Technology - Offsite Manufacture in Construction - Building for Change Report
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee
Impact	A report published by the House of Lords Science and Technology Committee, Off-site Manufacture for construction: building for change, says that off-site manufacture (OSM) can help to increase productivity in the construction sector while reducing labour demands, improving the quality and efficiency of buildings, and reducing the environmental impacts associated with traditional construction.
URL	https://publications.parliament.uk/pa/ld201719/ldselect/ldsctech/169/16902.htm


Description	Ove Arup Foundation Steering workshop - invited participant JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Professor Lord Robert Mair is Chairman of the Science Advisory Council of the Department of Transport
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	Professor Lord Robert Mair is a Member of House of Lords Select Committee on Science and Technology
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	Professor Lord Robert Mair is a Member of the National Infrastructure Commission Expert Advisory Technical Group
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee
Impact	See above


Description	RJM Chair of the Department for Transport Scientific Advisory Committee
Geographic Reach	National
Policy Influence Type	Membership of a guideline committee


Description	Skanska Deployment team Raman course
Geographic Reach	Multiple continents/international
Policy Influence Type	Influenced training of practitioners or researchers


Description	Tideway Tideway Academic Advisory Meeting - JMS
Geographic Reach	Multiple continents/international
Policy Influence Type	Participation in a advisory committee


Description	Training and Educational Developments, 4 courses in: (Costain bespoke) Distributed Fibre Optic Sensing for Structural Health Monitoring, DFOS open, Horizon2020 and Fibre Bragg Grating Optical Sensing for Structural Health Monitoring
Geographic Reach	National
Policy Influence Type	Influenced training of practitioners or researchers


Description	i3P DLG Advisory Committee JMS
Geographic Reach	National
Policy Influence Type	Participation in a advisory committee


Description	CIG: Automated As-Built Modelling of the Built Infrastructure
Amount	€ 100,000 (EUR)
Funding ID	334241
Organisation	Marie Sklodowska-Curie Actions
Sector	Charity/Non Profit
Country	Global
Start	09/2013
End	08/2017


Description	Computer Vision Automated Productivity Measurement
Amount	£85,624 (GBP)
Funding ID	1365023
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	10/2013
End	09/2017


Description	EPSRC Impact Acceleration Account Follow-on Fund
Amount	£59,912 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	04/2016
End	03/2017


Description	Energy harvesting for autonomous sensing
Amount	£112,922 (GBP)
Organisation	Innovate UK
Sector	Public
Country	United Kingdom
Start	09/2013
End	02/2015


Description	Facebook for Machines (EPSRC Institutional Support Grant) - AKNP
Amount	£10,000 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	11/2016


Description	IHI Japan
Amount	£28,904 (GBP)
Organisation	IHI Corporation
Sector	Private
Country	Japan
Start	09/2015
End	03/2016


Description	Impact Acceleration Account
Amount	£49,284 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	01/2015
End	09/2015


Description	Impact Acceleration Account
Amount	£59,916 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	01/2015
End	09/2015


Description	Industrial Case Award
Amount	£24,000 (GBP)
Organisation	CH2M HILL
Sector	Private
Country	United States
Start	10/2013
End	04/2017


Description	Industrial Case Award
Amount	£48,000 (GBP)
Organisation	RolaTube
Sector	Private
Country	United Kingdom
Start	10/2015
End	04/2019


Description	Industry Input
Amount	£762,019 (GBP)
Organisation	British Gas
Sector	Private
Country	United Kingdom
Start	10/2015
End	09/2021


Description	Innovate UK call - Energy Harvesting for Autonomous Sensing
Amount	£126,554 (GBP)
Organisation	Innovate UK
Sector	Public
Country	United Kingdom
Start	05/2015
End	04/2017


Description	Junior Research Fellowship - MSA
Amount	£90,000 (GBP)
Organisation	University of Cambridge
Department	Clare Hall
Sector	Academic/University
Country	United Kingdom
Start	10/2017


Description	Managing Air for Green Inner Cities (MAGIC) - YJ
Amount	£4,000,000 (GBP)
Funding ID	EP/N010221/1
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	06/2016


Description	Novel applications of structural equation models for car ownership and travel choice forecasting (PI) - YJ
Amount	£25,000 (GBP)
Organisation	Department of Transport
Sector	Public
Country	United Kingdom
Start	10/2016


Description	Patraucean, V. Travel award to attend the International Conference on Computer Vision and Pattern Recognition 2015
Amount	€ 1,000 (EUR)
Organisation	University of Thessaly
Sector	Academic/University
Country	Greece
Start	01/2015
End	01/2016


Description	Performance of polymer support fluids for piling and diaphragm walls
Amount	£27,800 (GBP)
Funding ID	2109009
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	09/2018
End	09/2022


Description	Phase Two of the SPECIFIC and CSIC Innovation and Knowledge Centres
Amount	£1,328,464 (GBP)
Funding ID	EP/N021614/1
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	04/2016
End	03/2021


Description	Phase Two of the SPECIFIC and CSIC Innovation and Knowledge Centres
Amount	£2,499,396 (GBP)
Funding ID	920035
Organisation	Innovate UK
Sector	Public
Country	United Kingdom
Start	04/2015
End	03/2021


Description	Poverty in Chinese Cities: application of new data analytics (PI) YJ
Amount	£126,000 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	09/2016


Description	Small Partnership Awards - RC
Amount	£20,000 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	10/2016


Description	Smart Urban Design - XJ
Amount	£150,000 (GBP)
Organisation	Global University Alliance
Sector	Academic/University
Start	11/2016


Description	Spatial economic data analyses for Greater Cambridge-Greater Peterborough (GCGP) Enterprise Partnership Strategic Economic Plan (research lead) - YJ
Amount	£120,000 (GBP)
Organisation	Greater Cambridge Greater Peterborough LEP
Sector	Public
Country	United Kingdom
Start	11/2016


Description	UK Centre for Digital Build Britain
Amount	£81,518 (GBP)
Organisation	University of Cambridge
Sector	Academic/University
Country	United Kingdom
Start	10/2018
End	07/2019


Description	Urban Scale Building Energy Network
Amount	£28,868 (GBP)
Organisation	Engineering and Physical Sciences Research Council (EPSRC)
Sector	Public
Country	United Kingdom
Start	09/2014
End	08/2015


Description	alan turing institute
Amount	£364,503 (GBP)
Organisation	Alan Turing Institute
Sector	Academic/University
Country	United Kingdom
Start	10/2018
End	09/2021


Title	Advanced soil models to be incorporated into commercially available software Extended Saniclay model in Abaqus - Samila Bandara
Description	Advanced soil models to be incorporated into commercially available software Extended Saniclay model in Abaqus
Type Of Material	Improvements to research infrastructure
Year Produced	2017
Provided To Others?	No
Impact	Advanced soil models to be incorporated into commercially available software Extended Saniclay model in Abaqus


Title	BIM Maturity Assessment Tool
Description	CSIC's BIM Maturity Assessment Tool (BMAT), initially developed in 2017, uses established performance measurement practices, BIM literature, and other relevant standards, to build and expand on previous BIM assessment tools. Consisting of two major parts -measurement of the organisation's BIM development maturity and measurement of the supporting processes - the tool provides a separate assessment of the different stakeholders (contractor, designer and employer), and is designed to be used as a continuous performance measurement tool that can be employed to track the evolution of BIM maturity throughout the construction phase through to handover. The Excel-based tool is designed to be user friendly and adaptable to the needs of individual organisations and projects. Limited testing of the tool was successful but more case studies were needed for validation. Secondment project - BIM Maturity Assessment Tool - This aim of the secondment project was to ensure the tool complies with all of the applicable standards, to validate the tool through five additional cross-sector case studies and to ensure its appropriateness for Level 2 BIM maturity assessments. Also, the tool required future-proofing for extension beyond Level 2. In order to develop the tool and make it effective and useful to industry, diverse case studies were identified from a range of sectors (water, railways, highways, and nuclear) and various stages in the project delivery cycle (design, construction and handover) as well as different contract types (e.g. traditional, and, design and build). The updated tool is structured to ask the right questions of the user depending on the stage of the Information Delivery Cycle (IDC) and which stakeholders are involved. The tool is designed to reveal how well the asset owner has defined the asset information requirements and how well the different project stakeholders have defined their approach to develop these requirements for both the BIM Execution Plan (BEP) and the Master Information Delivery Plan (MIDP). The tool enables clarity on who owns the data, who owns the common data environment, and who will take responsibility for the Asset Information Model (AIM) upon handover. Questions are asked about competency and information production, which standards have been applied, how to measure the quality of data used, and how the different stakeholders collaborate. The tool is designed to be extended further. Plans include testing additional case studies and improving the weighting system and interdependencies between the various BIM elements, as well as the development of a web-based version which will enable widely processing and disseminating maturity assessment results across the country.
Type Of Material	Improvements to research infrastructure
Year Produced	2018
Provided To Others?	Yes
Impact	CSIC's BIM Maturity Assessment Tool (BMAT), initially developed in 2017, uses established performance measurement practices, BIM literature, and other relevant standards, to build and expand on previous BIM assessment tools. Consisting of two major parts -measurement of the organisation's BIM development maturity and measurement of the supporting processes - the tool provides a separate assessment of the different stakeholders (contractor, designer and employer), and is designed to be used as a continuous performance measurement tool that can be employed to track the evolution of BIM maturity throughout the construction phase through to handover. The Excel-based tool is designed to be user friendly and adaptable to the needs of individual organisations and projects. Limited testing of the tool was successful but more case studies were needed for validation.


Title	Information Future-proofing Assessment Approach - TM
Description	Information Future-proofing Assessment Approach along with case studies of bridges and structures portfolio [Hertfordshire County Council] and a university department building [University of Cambridge], http://www-smartinfrastructure.eng.cam.ac.uk/files/information-futureproofing [presentation from 9/2015].
Type Of Material	Improvements to research infrastructure
Provided To Others?	No
Impact	Information Future-proofing Assessment Approach along with case studies of bridges and structures portfolio [Hertfordshire County Council] and a university department building [University of Cambridge], http://www-smartinfrastructure.eng.cam.ac.uk/files/information-futureproofing [presentation from 9/2015].
URL	http://www.smartinfrastructure.eng.cam.ac.uk/files/information-futureproofing


Title	Infrastructure Future-proofing Assessment Approach - TM
Description	Infrastructure Future-proofing Assessment Approach along with case studies of capacity upgrade projects of London Underground and Costain, http://www-smartinfrastructure.eng.cam.ac.uk/files/infrastructure-futureproofing [presentation from 9/2015]
Type Of Material	Improvements to research infrastructure
Provided To Others?	No
Impact	Infrastructure Future-proofing Assessment Approach along with case studies of capacity upgrade projects of London Underground and Costain, http://www-smartinfrastructure.eng.cam.ac.uk/files/infrastructure-futureproofing [presentation from 9/2015]
URL	http://www.smartinfrastructure.eng.cam.ac.uk/files/infrastructure-futureproofing


Title	Infrastructure Future-proofing Framework - TM
Description	Infrastructure Future-proofing Framework along with case studies of Dawlish Railway and Heathrow Airport (1/2016) [link to http://dx.doi.org/10.1680/jinam.15.00006
Type Of Material	Improvements to research infrastructure
Provided To Others?	No
Impact	Infrastructure Future-proofing Framework along with case studies of Dawlish Railway and Heathrow Airport (1/2016) [link to http://dx.doi.org/10.1680/jinam.15.00006].


Title	Monitoring axial shortening
Description	CSIC has developed a novel application of distributed fibre optic sensors (DFOS) to continuously measure the progressive axial shortening of reinforced concrete columns and walls during the construction of high-rise buildings.
Type Of Material	Improvements to research infrastructure
Year Produced	2018
Provided To Others?	Yes
Impact	The data acquired to date provide the shortening time histories of the instrumented elements with unprecedented detail and at an unprecedented temporal density. This information has been used to demonstrate how an element's shortening is affected by its profile and stiffness, with smaller and less stiff elements shortening more. The continuous data also show that transient thermal effects can play a significant role in axial shortening, at times accounting for as much as 50 per cent of the total deformation. This is particularly significant as shortening predictions prior to construction do not take into account such thermal effects. CSIC's FO monitoring system also makes it possible to observe the effects of occasional and unexpected events - such as an incident of abrupt loading - which could not be observed with periodic or occasional measurements.


Title	Predictive Maintenance Model
Description	CSIC researchers have developed a methodology to help asset managers to determine the most optimal timing for interventions on their bridge portfolio in a predictive manner. As maintenance budgets for bridge systems are squeezed, many necessary maintenance activities are delayed or cancelled. Retaining an appropriate level of service and safety for an infrastructure network has become a challenging issue and there is pressing need for a smart asset management approach for road bridges. The structure of the overall approach is composed of five interconnected models: deterioration model; lifecycle cost model; predictive maintenance; group maintenance; and maintenance scheduling model (Figure 2). The deterioration model is formulated for each component of the bridges based on the information from the Structures Asset Management Planning Toolkit, general inspection, and other theoretical models. The predictability of the maintenance model enables proactive grouping of maintenance activities at different timings to reduce add-on costs such as the cost of preliminaries, traffic management and design. These add-on costs can be up to 80 per cent of the cost of repairs that are carried out at the same time. Finally, a designed to be meaningful and supports asset management planning and business case development for the asset owner, as well as the interface between the Structures Asset Management Toolkit and asset management systems to allow asset data input to be automated. The tool is designed to be used for any type of bridge from footbridges to motorway bridges. It has been tested and demonstrated using real industry data and dependencies and, constraints have been tested to enable scenario planning. To develop the CISC toolkit, data including deterioration rates and maintenance costs were extracted from the 2015 update of the Structures Asset Management Toolkit Documentation published by the Department for Transport. This data is different from the current version of the DfT Strcutures Asset Management Toolkit released in 2017. Therefore, it is difficult to compare the CSIC toolkit results against the DfT toolkit. The latest data are required in order to secure more accurate results and also validate the outcome of the CSIC toolkit. The available tools in the market have a time-dependent strategy based on experience. The CSIC tool is the first to provide a strategy based on data using a mathematical model to reduce the maintenance costs and improve the safety of bridges at the same time; the CSIC tool introduces a cost and safety dependent maintenance strategy. The tool can be used for a wide range of applications within the infrastructure sector. The next step is to make the tool adaptable for different types of assets such as tunnels, retaining walls, and earthworks. Our secondment programme offers benefits to all stakeholders. Secondees bring new skills, projects and challenges to CSIC that help to develop emerging tools and technologies for industry use. The secondees gain a deep understanding of innovations which they can apply for the direct benefit of their own companies/organisations.
Type Of Material	Improvements to research infrastructure
Year Produced	2018
Provided To Others?	Yes
Impact	CSIC researchers have developed a methodology to help asset managers to determine the most optimal timing for interventions on their bridge portfolio in a predictive manner. As maintenance budgets for bridge systems are squeezed, many necessary maintenance activities are delayed or cancelled. Retaining an appropriate level of service and safety for an infrastructure network has become a challenging issue and there is pressing need for a smart asset management approach for road bridges. The structure of the overall approach is composed of five interconnected models: deterioration model; lifecycle cost model; predictive maintenance; group maintenance; and maintenance scheduling model (Figure 2). The deterioration model is formulated for each component of the bridges based on the information from the Structures Asset Management Planning Toolkit, general inspection, and other theoretical models. The predictability of the maintenance model enables proactive grouping of maintenance activities at different timings to reduce add-on costs such as the cost of preliminaries, traffic management and design. These add-on costs can be up to 80 per cent of the cost of repairs that are carried out at the same time. Finally, a designed to be meaningful and supports asset management planning and business case development for the asset owner, as well as the interface between the Structures Asset Management Toolkit and asset management systems to allow asset data input to be automated. The tool is designed to be used for any type of bridge from footbridges to motorway bridges. It has been tested and demonstrated using real industry data and dependencies and, constraints have been tested to enable scenario planning.


Title	CSIC Fibre-Optics Data Analysis Dashboard
Description	The construction and infrastructure industries grapple with huge volumes of data (big data), when attempting to monitor the structural health of their infrastructure. CSIC is producing a Fibre-Optics Data Analysis Dashboard to assist the industries in quickly and efficiently assessing huge volumes of data for the key message.
Type Of Material	Data analysis technique
Provided To Others?	No
Impact	The CSIC FODA Dashboard is still in the Research and Development phase, with CSIC's Industry Partners providing vital sites and data, as well as industry feedback as the dashboard develops.


Title	Data set related to the publication: "Structural performance monitoring using a dynamic data-driven BIM environment"
Description	The data was collected for the ME01 project being carried out in the Department of Engineering at the University of Cambridge under EPSRC grant no. EP/L010917/1 The ME01 project is a fibre optic instrumentation and dynamic monitoring programme at Norton Bridge, UK, part of the Stafford Area Improvements Programme. The strain data was collected using fibre optic monitoring technologies based on fibre Bragg gratings.
Type Of Material	Database/Collection of data
Year Produced	2018
Provided To Others?	Yes


Title	Dynamic digital twin with multi-layered information models for West Cambridge - QL
Description	Dynamic digital twin with multi-layered information models. A point cloud model for west Cambridge site and a point cloud model for IfM building.
Type Of Material	Computer model/algorithm
Year Produced	2018
Provided To Others?	No
Impact	Basis for further work


Title	Principal Tower axial shortening L0-16: Research data supporting "Monitoring the axial displacement of a high-rise building under construction using embedded distributed fibre optic sensors"
Description	Axial displacement of columns C8 and C9 and walls W1 and W2 at Principal Tower (London, UK) measured between mid-October 2016 and end March 2017 from levels 0 to 16.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Principal Tower axial shortening L0-16: Research data supporting "Monitoring the axial displacement of a high-rise building under construction using embedded distributed fibre optic sensors"
Description	Axial displacement of columns C8 and C9 and walls W1 and W2 at Principal Tower (London, UK) measured between mid-October 2016 and end March 2017 from levels 0 to 16.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Principal Tower column axial shortening L0-4
Description	Axial displacement of columns C8 and C9 at Principal Tower (London, UK) measured between mid-October and mid-December 2016 from levels 0 to 4.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Principal Tower column axial shortening L0-4
Description	Axial displacement of columns C8 and C9 at Principal Tower (London, UK) measured between mid-October and mid-December 2016 from levels 0 to 4.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Research data supporting "A Handheld Diagnostic System for 6LoWPAN Networks"
Description	This data consists of Contiki OS/Cooja simulation files to conduct experiments based on previously obtained diagnostic data from a six-month-long deployment on a construction site, specifically on a new Crossrail Station in Paddington, London. Accompanying these files are the scripts and data used to generate the figures presented in the paper. This research data supports "A Handheld Diagnostic System for 6LoWPAN Networks" which will be published in "13th Wireless On-demand Network systems and Services Conference (WONS 2017)"
Type Of Material	Database/Collection of data
Year Produced	2016
Provided To Others?	Yes


Title	Research data supporting "A Handheld Diagnostic System for 6LoWPAN Networks"
Description	This data consists of Contiki OS/Cooja simulation files to conduct experiments based on previously obtained diagnostic data from a six-month-long deployment on a construction site, specifically on a new Crossrail Station in Paddington, London. Accompanying these files are the scripts and data used to generate the figures presented in the paper. This research data supports "A Handheld Diagnostic System for 6LoWPAN Networks" which will be published in "13th Wireless On-demand Network systems and Services Conference (WONS 2017)"
Type Of Material	Database/Collection of data
Year Produced	2016
Provided To Others?	Yes


Title	Research data supporting "Dynamic response of a damaged masonry rail viaduct: Measurement and interpretation"
Description	Dataset includes fibre-optic data and photogrammetry data collected at Marsh Lane Viaduct in Leeds, UK.
Type Of Material	Database/Collection of data
Year Produced	2018
Provided To Others?	Yes


Title	Research data supporting "Evaluation of the response of a vaulted masonry structure to differential settlements using point cloud data and limit analyses"
Description	Raw data, processing algorithms and paper figure data
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Research data supporting "Evaluation of the response of a vaulted masonry structure to differential settlements using point cloud data and limit analyses"
Description	Raw data, processing algorithms and paper figure data
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Research data supporting "Sensing dynamic displacements in masonry rail bridges using 2D digital image correlation"
Description	Key figures (in MATLAB .fig format) from the publication "Sensing dynamic displacements in masonry rail bridges using 2D digital image correlation".
Type Of Material	Database/Collection of data
Year Produced	2018
Provided To Others?	Yes


Title	Research data supporting "Sensing dynamic displacements in masonry rail bridges using 2D digital image correlation"
Description	Key figures (in MATLAB .fig format) from the publication "Sensing dynamic displacements in masonry rail bridges using 2D digital image correlation".
Type Of Material	Database/Collection of data
Year Produced	2018
Provided To Others?	Yes


Title	Research data supporting: Robust fibre optic sensor arrays for monitoring the early-age behaviour of mass-produced concrete sleepers
Description	Research data supporting the above noted publication.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Title	Research data supporting: Robust fibre optic sensor arrays for monitoring the early-age behaviour of mass-produced concrete sleepers
Description	Research data supporting the above noted publication.
Type Of Material	Database/Collection of data
Year Produced	2017
Provided To Others?	Yes


Description	1 Field Deployment for Industry Partner: Trinity Hall
Organisation	University of Cambridge
Department	Trinity Hall, Cambridge
Country	United Kingdom
Sector	Private
PI Contribution	Trinity Hall, Cambridge - Basement excavation
Collaborator Contribution	Trinity Hall, Cambridge - Basement excavation
Impact	Trinity Hall, Cambridge - Basement excavation
Start Year	2014


Description	1 Field Deployment for Industry Partner: United Utilities
Organisation	United Utilities Group PLC
Country	United Kingdom
Sector	Private
PI Contribution	United Utilities, Manchester, Secant pile wall
Collaborator Contribution	United Utilities, Manchester, Secant pile wall
Impact	United Utilities, Manchester, Secant pile wall
Start Year	2014


Description	1 Field Deployment for Industry Partner: Victoria and Albert Museum
Organisation	Victoria and Albert Museum
Country	United Kingdom
Sector	Public
PI Contribution	Victoria and Albert Museum, South Kensington, London - Tension piles
Collaborator Contribution	Victoria and Albert Museum, South Kensington, London - Tension piles
Impact	Victoria and Albert Museum, South Kensington, London - Tension piles
Start Year	2014


Description	1 Field Deployment for Industry Partner: Wood Wharf pile tests
Organisation	Canary Wharf Group
Department	Wood Wharf
Country	United Kingdom
Sector	Private
PI Contribution	Wood Wharf pile tests - Wood Wharf, Canary Wharf, London - 5 piles
Collaborator Contribution	Wood Wharf pile tests - Wood Wharf, Canary Wharf, London - 5 piles
Impact	Wood Wharf pile tests - Wood Wharf, Canary Wharf, London - 5 piles
Start Year	2014


Description	1 Field Deployment with Industry Partner: National Rail
Organisation	National Railway Museum
Country	United Kingdom
Sector	Charity/Non Profit
PI Contribution	Leeds Masonry arch
Collaborator Contribution	Leeds masonry arch
Impact	Leeds masonry arch
Start Year	2014


Description	1 Field Deployment with Industry Partner: Newfoundland Development
Organisation	Newfoundland Development
Country	United Kingdom
Sector	Private
PI Contribution	Newfoundland Development, Canary Wharf, London - Piles - O - Cell test
Collaborator Contribution	Newfoundland Development, Canary Wharf, London - Piles - O - Cell test
Impact	Newfoundland Development, Canary Wharf, London - Piles - O - Cell test
Start Year	2014


Description	1 Field Deployment with Industry Partner: Papworth Hospital
Organisation	Royal Papworth Hospital NHS Foundation Trust
Country	United Kingdom
Sector	Public
PI Contribution	Papworth Hospital, Cambridge - Geothermal boreholes
Collaborator Contribution	Papworth Hospital, Cambridge - Geothermal boreholes
Impact	Papworth Hospital, Cambridge - Geothermal boreholes
Start Year	2014


Description	1 Field Deployment with Industry Partner: Severn Trent Water
Organisation	Severn Trent Water
Country	United Kingdom
Sector	Private
PI Contribution	Severn Trent Water - midlands - Sewer
Collaborator Contribution	Severn Trent Water - midlands - Sewer
Impact	Severn Trent Water - midlands - Sewer
Start Year	2014


Description	1 Field Deployment with Industry Partner: Shell Centre
Organisation	Shell Centre
Country	United Kingdom
Sector	Private
PI Contribution	Shell Centre, London - Geothermal piles
Collaborator Contribution	Shell Centre, London - Geothermal piles
Impact	Shell Centre, London - Geothermal piles
Start Year	2014


Description	1 Field Deployment with Industry Partner: University of Cambridge
Organisation	University of Cambridge
Country	United Kingdom
Sector	Academic/University
PI Contribution	Lab work
Collaborator Contribution	Lab work
Impact	Lab work
Start Year	2014


Description	1 Field Deployment with Industry Partner: itmsoil
Organisation	Itmsoil
Country	United Kingdom
Sector	Private
PI Contribution	Tunnel ring
Collaborator Contribution	Tunnel ring
Impact	Tunnel ring
Start Year	2014


Description	1 Field Deployment with Industry Partners: Grafham Water reservoir
Organisation	Grafham Water Reservoir
Country	United Kingdom
Sector	Public
PI Contribution	Roof composite slab
Collaborator Contribution	Roof composite slab
Impact	Roof composite slab
Start Year	2014


Description	1 Field Deployments with Industry Partner: Farringdon station, London
Organisation	Farringdon Station
Country	United Kingdom
Sector	Public
PI Contribution	Piles - 0 - cell test
Collaborator Contribution	Piles - 0 - cell test
Impact	Piles - 0 - cell test
Start Year	2014


Description	1 Field Deployments with Industry Partner: National Grid, London
Organisation	The National Grid Co plc
Country	United Kingdom
Sector	Private
PI Contribution	Eade Road, London - precast concrete tunnel segments
Collaborator Contribution	Eade Road, London - precast concrete tunnel segments
Impact	Eade Road, London - precast concrete tunnel segments
Start Year	2014


Description	1 Field Deployments with Industry Partners: Gwynedd CC, North Wales Roads
Organisation	Gwynedd Council
Country	United Kingdom
Sector	Public
PI Contribution	Pen Y Clip Brazil wall
Collaborator Contribution	Pen Y Clip Brazil wall
Impact	Pen Y Clip Brazil wall
Start Year	2014


Description	2 Field deployments with Industry Partner: Network Rail
Organisation	Network Rail Ltd
Country	United Kingdom
Sector	Private
PI Contribution	1. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges U/B 11 (precast concrete) 2. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges I/B 5 ('E'-type' steel)
Collaborator Contribution	1. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges U/B 11 (precast concrete) 2. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges I/B 5 ('E'-type' steel)
Impact	1. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges U/B 11 (precast concrete) 2. Stafford Area Improvement - Norton Bridge junction (Staffordshire Alliance) - Bridges I/B 5 ('E'-type' steel)
Start Year	2014


Description	3 Field Deployments with Industry Partners: James Dyson and University of Cambridge
Organisation	University of Cambridge
Country	United Kingdom
Sector	Academic/University
PI Contribution	1. Piles 2. Columns, beams and slabs 3. Building scanning
Collaborator Contribution	1. Piles 2. Columns, beams and slabs 3. Building scanning
Impact	1. Piles 2. Columns, beams and slabs 3. Building scanning
Start Year	2014


Description	4 Field Deployments with Industry Partners: CERN
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	1. Concrete tunnels - section 1 2. Concrete tunnels - section 2 and I-beams 3. Concrete tunnels - Atlas section 4. Concrete tunnels - AWAKE section
Collaborator Contribution	1. Concrete tunnels - section 1 2. Concrete tunnels - section 2 and I-beams 3. Concrete tunnels - Atlas section 4. Concrete tunnels - AWAKE section
Impact	1. Concrete tunnels - section 1 2. Concrete tunnels - section 2 and I-beams 3. Concrete tunnels - Atlas section 4. Concrete tunnels - AWAKE section
Start Year	2014


Description	4 Field Deployments with Industry Partners: Crossrail
Organisation	Crossrail
Country	United Kingdom
Sector	Private
PI Contribution	1. Paddington Station, London, D-wall 2. Paddington Station, London, D-wall 3. Thames Tunnel, Plumstead, N.Woolwich, precast concrete tunnel segments 4. Liverpool Street Station, London, sprayed concrete lining in CH5
Collaborator Contribution	1. Paddington Station, London, D-wall 2. Paddington Station, London, D-wall 3. Thames Tunnel, Plumstead, N.Woolwich, precast concrete tunnel segments 4. Liverpool Street Station, London, sprayed concrete lining in CH5
Impact	1. Paddington Station, London, D-wall 2. Paddington Station, London, D-wall 3. Thames Tunnel, Plumstead, N.Woolwich, precast concrete tunnel segments 4. Liverpool Street Station, London, sprayed concrete lining in CH5
Start Year	2014


Description	4 Field Deployments with Industry Partners: London Underground
Organisation	Transport for London
Department	London Underground
Country	United Kingdom
Sector	Public
PI Contribution	1. Victoria station, London - deployment - Smartplank 2. Tottenham Court Road Station, London - deployment - cast iron tunnel segments 3. Central Line, Liverpool Street Station, London - deployment - escalator barrel 4. Moorgate Station, London - deployment - precast concrete tunnel segments
Collaborator Contribution	1. Victoria station, London - deployment - Smartplank 2. Tottenham Court Road Station, London - deployment - cast iron tunnel segments 3. Central Line, Liverpool Street Station, London - deployment - escalator barrel 4. Moorgate Station, London - deployment - precast concrete tunnel segments
Impact	1. Victoria station, London - deployment - Smartplank 2. Tottenham Court Road Station, London - deployment - cast iron tunnel segments 3. Central Line, Liverpool Street Station, London - deployment - escalator barrel 4. Moorgate Station, London - deployment - precast concrete tunnel segments
Start Year	2014


Description	6 Field Deployments with Industry Partner: London Bridge Station
Organisation	HCA Hospitals
Department	London Bridge Hospital
Country	United Kingdom
Sector	Private
PI Contribution	1. Masonry Arch E951 2. Composite beam F2 3. Various structural and non structural components 4. Buttress walls P25 5. Various 6. Construction noise
Collaborator Contribution	1. Masonry Arch E951 2. Composite beam F2 3. Various structural and non structural components 4. Buttress walls P25 5. Various 6. Construction noise
Impact	1. Masonry Arch E951 2. Composite beam F2 3. Various structural and non structural components 4. Buttress walls P25 5. Various 6. Construction noise
Start Year	2014


Description	8 Power
Organisation	8 Power Ltd
Country	United Kingdom
Sector	Private
PI Contribution	Translating technologies on energy harvesting and low-power sensors
Collaborator Contribution	Translating technologies on energy harvesting and low-power sensors
Impact	Translating technologies on energy harvesting and low-power sensors
Start Year	2016


Description	8 Power - PRAF
Organisation	8 Power Ltd
Country	United Kingdom
Sector	Private
PI Contribution	Innovate UK First-Of-A-Kind Project - Phase I (JMS, DRH, PRAF)
Collaborator Contribution	Innovate UK First-Of-A-Kind Project - Phase I (JMS, DRH, PRAF)
Impact	Innovate UK First-Of-A-Kind Project - Phase I (JMS, DRH, PRAF)
Start Year	2016


Description	ARUP - MJD
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Worked closely analysing monitoring data for masonry structures above the Crossrail tunnels
Collaborator Contribution	Worked closely analysing monitoring data for masonry structures above the Crossrail tunnels
Impact	Worked closely analysing monitoring data for masonry structures above the Crossrail tunnels
Start Year	2014


Description	ARUP development of strategies and implementation of sensing in piles -JMS
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	development of strategies and implementation of sensing in piles
Collaborator Contribution	development of strategies and implementation of sensing in piles
Impact	development of strategies and implementation of sensing in piles
Start Year	2016


Description	Abbey Mills Shaft F
Organisation	Thames Water Utilities Limited
Country	United Kingdom
Sector	Private
PI Contribution	Instrumentation scheme for Abbey Mills Shaft F - conventional instrumentation and fibre optic instrumentation
Collaborator Contribution	Cash contribution and in-kind contribution. In addition, Thames Water paid for a comprehensive monitoring scheme around Shaft F worth more than £1m.
Impact	A significantly better understanding of ground movements around shafts has been gained. This enabled Thames Water to use the information for the Thames Tideway Scheme currently underway. The project was awarded the ICE Fleming Award
Start Year	2012


Description	Achieving Net Zero Roundtable
Organisation	Arcadis NV
Country	Netherlands
Sector	Private
PI Contribution	CSIC, COWI and Arcadis jointly hosting an Achieving Net Zero Roundtable Discussion. The infrastructure and construction industry must take action now if we are to achieve net zero carbon by 2050. Some organisations have already publicly stated their commitment to achieve this even before 2050. However, the majority of organisations, although accepting the need to take up this challenge, do not know where to start. What can we as an industry do now to move towards the net zero goal and what changes in policy are needed to enable industry to reach this goal? This cross-government and industry roundtable event, organised by CSIC, Arcadis, and COWI, will address three initial questions. 1) What design and site measures can be adopted to reduce waste and move towards achieving net zero? How can existing data and digital tools be exploited to achieve this? 2) Given the climate emergency and government commitment to net zero by 2050, what changes to their procurement documents and processes can public sector, regulated industry and private sector clients make immediately? 3) What further actions can government ask of asset owners and project clients under existing powers? An action plan for each question will be developed for both individual organisations and at a systemic level.
Collaborator Contribution	As above.
Impact	Collaboration still active, outputs and outcomes not yet known.
Start Year	2020


Description	Achieving Net Zero Roundtable
Organisation	COWI A/S
Country	Denmark
Sector	Private
PI Contribution	CSIC, COWI and Arcadis jointly hosting an Achieving Net Zero Roundtable Discussion. The infrastructure and construction industry must take action now if we are to achieve net zero carbon by 2050. Some organisations have already publicly stated their commitment to achieve this even before 2050. However, the majority of organisations, although accepting the need to take up this challenge, do not know where to start. What can we as an industry do now to move towards the net zero goal and what changes in policy are needed to enable industry to reach this goal? This cross-government and industry roundtable event, organised by CSIC, Arcadis, and COWI, will address three initial questions. 1) What design and site measures can be adopted to reduce waste and move towards achieving net zero? How can existing data and digital tools be exploited to achieve this? 2) Given the climate emergency and government commitment to net zero by 2050, what changes to their procurement documents and processes can public sector, regulated industry and private sector clients make immediately? 3) What further actions can government ask of asset owners and project clients under existing powers? An action plan for each question will be developed for both individual organisations and at a systemic level.
Collaborator Contribution	As above.
Impact	Collaboration still active, outputs and outcomes not yet known.
Start Year	2020


Description	Acikgoz, S. Established effective partnership with Topcon
Organisation	Topcon
Country	Japan
Sector	Private
PI Contribution	Resulted in acquisition of IS-3 and GLS-2000 devices at a significantly reduced rate (10K instead of 75K)
Collaborator Contribution	Resulted in acquisition of IS-3 and GLS-2000 devices at a significantly reduced rate (10K instead of 75K)
Impact	Resulted in acquisition of IS-3 and GLS-2000 devices at a significantly reduced rate (10K instead of 75K)
Start Year	2014


Description	Acikgoz, S. Established new partnership with Network Rail in the area of assessment of existing masonry structures
Organisation	Network Rail Ltd
Country	United Kingdom
Sector	Private
PI Contribution	Established new partnership with Network Rail in the area of assessment of existing masonry structures
Collaborator Contribution	Established new partnership with Network Rail in the area of assessment of existing masonry structures
Impact	Established new partnership with Network Rail in the area of assessment of existing masonry structures
Start Year	2014


Description	Amsterdam University of Applied Sciences, Netherlands - ES
Organisation	Amsterdam University of Applied Sciences
Country	Netherlands
Sector	Academic/University
PI Contribution	Shadow EU-Summit: managing cities of tomorrow
Collaborator Contribution	Shadow EU-Summit: managing cities of tomorrow
Impact	Shadow EU-Summit: managing cities of tomorrow
Start Year	2016


Description	Anglian Water - AKNP
Organisation	Anglian Water Services
Country	United Kingdom
Sector	Private
PI Contribution	Asset Management
Collaborator Contribution	Asset Management
Impact	Asset Management
Start Year	2016


Description	Anglian Water - CK
Organisation	Anglian Water Services
Country	United Kingdom
Sector	Private
PI Contribution	Grafham Water reservoir, Huntingdon, Cambridgeshire, Roof composite slab
Collaborator Contribution	Grafham Water reservoir, Huntingdon, Cambridgeshire, Roof composite slab
Impact	Grafham Water reservoir, Huntingdon, Cambridgeshire, Roof composite slab
Start Year	2016


Description	Anglian Water - PTK
Organisation	Anglian Water Services
Country	United Kingdom
Sector	Private
PI Contribution	Newmarket Shopwindow
Collaborator Contribution	Newmarket Shopwindow
Impact	Newmarket Shopwindow
Start Year	2016


Description	Anglian Water - PTK
Organisation	Anglian Water Services
Country	United Kingdom
Sector	Private
PI Contribution	Grafham Water
Collaborator Contribution	Grafham Water
Impact	Grafham Water
Start Year	2015


Description	Applications of New Techniques to the Detection and Monitoring of Bridge Scour
Organisation	WSP Group plc
Department	WSP UK Ltd
Country	United Kingdom
Sector	Private
PI Contribution	Cam Middleton and WSP working on secondment project 'Applications of New Techniques to the Detection and Monitoring of Bridge Scour'
Collaborator Contribution	As above.
Impact	Collaboration is still active, output and outcomes not yet known.
Start Year	2019


Description	Aquacleansing installation of FO sensors in sewer tunnels - JMS
Organisation	Aqua cleansing
Country	United Kingdom
Sector	Private
PI Contribution	installation of FO sensors in sewer tunnels
Collaborator Contribution	installation of FO sensors in sewer tunnels
Impact	installation of FO sensors in sewer tunnels
Start Year	2016


Description	Arup
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Development of strategies and implementation of sensing in piles.
Collaborator Contribution	Development of strategies and implementation of sensing in piles.
Impact	Development of strategies and implementation of sensing in piles.
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Wood Wharf, London, 5 pile tests
Collaborator Contribution	Wood Wharf, London, 5 pile tests
Impact	Wood Wharf, London, 5 pile tests
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Thermal pile monitoring, Shell Centre
Collaborator Contribution	Thermal pile monitoring, Shell Centre
Impact	Thermal pile monitoring, Shell Centre
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	East Village, Stratford, London, 2 pile tests
Collaborator Contribution	East Village, Stratford, London, 2 pile tests
Impact	East Village, Stratford, London, 2 pile tests
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Bank Street, London, 1 pile test
Collaborator Contribution	Bank Street, London, 1 pile test
Impact	Bank Street, London, 1 pile test
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Newfoundland development, Piles - O-cell test
Collaborator Contribution	Newfoundland development, Piles - O-cell test
Impact	Newfoundland development, Piles - O-cell test
Start Year	2015


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	South Bank, London, 3 pile tests
Collaborator Contribution	South Bank, London, 3 pile tests
Impact	South Bank, London, 3 pile tests
Start Year	2016


Description	Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	Victoria and Albert Museum, South Kensington, London, Tension piles
Collaborator Contribution	Victoria and Albert Museum, South Kensington, London, Tension piles
Impact	Victoria and Albert Museum, South Kensington, London, Tension piles
Start Year	2015


Description	Asset management - Zhenglin Liang
Organisation	Herefordshire Council
Country	United Kingdom
Sector	Public
PI Contribution	Asset management
Collaborator Contribution	Asset management
Impact	Asset management
Start Year	2017


Description	Atkins - LB
Organisation	WS Atkins
Country	United Kingdom
Sector	Private
PI Contribution	Staffordshire Alliance Bridge Monitoring Project (EPSRC)
Collaborator Contribution	Staffordshire Alliance Bridge Monitoring Project (EPSRC)
Impact	Staffordshire Alliance Bridge Monitoring Project (EPSRC)
Start Year	2014


Description	Atkins - PTK
Organisation	WS Atkins
Country	United Kingdom
Sector	Private
PI Contribution	Staffordshire Alliance Bridges
Collaborator Contribution	Staffordshire Alliance Bridges
Impact	Staffordshire Alliance Bridges
Start Year	2015


Description	Atkins, NR - CK
Organisation	Network Rail Ltd
Country	United Kingdom
Sector	Private
PI Contribution	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Collaborator Contribution	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Impact	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Start Year	2015


Description	Atkins, NR - CK
Organisation	WS Atkins
Country	United Kingdom
Sector	Private
PI Contribution	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Collaborator Contribution	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Impact	Network Rail - Stafford Area Improvement Programme, Bridges U/B 11 (precast concrete)
Start Year	2015


Description	Atkins, NR - CK
Organisation	WS Atkins
Country	United Kingdom
Sector	Private
PI Contribution	Network Rail - Stafford Area Improvement Programme, Bridges I/B 5 ('E-type' steel)
Collaborator Contribution	Network Rail - Stafford Area Improvement Programme, Bridges I/B 5 ('E-type' steel)
Impact	Network Rail - Stafford Area Improvement Programme, Bridges I/B 5 ('E-type' steel)
Start Year	2015


Description	Automating concrete construction: digital processes for whole-life sustainability and productivity
Organisation	University of Bath
Country	United Kingdom
Sector	Academic/University
PI Contribution	CSIC Investigators are collaborating with colleagues from the Universities of Bath and Dundee to drive a new culture in the construction industry to improve whole-life sustainability and productivity. CSIC is a project partner and Director Dr Jennifer Schooling chairs the steering group. Automating Concrete Construction (ACORN) is one of four research and development projects funded by UK Research and Innovation (UKRI) under the Industrial Strategy Challenge Fund 'Transforming Construction'. The three-year project will address the core aims of the programme: designing and managing buildings through digitally enabled simulation and constructing quality buildings through offsite manufacturing approaches. ACORN aims to create a culture that takes a holistic approach to the manufacture, assembly, reuse and deconstruction of concrete buildings. This will lead to a healthier, safer built environment and a culture that is built on the concept of using enough material, and no more. The challenge Today, the widespread use of flat panel formwork for concrete leads to materially inefficient prismatic shapes for the beams, columns, and floor-slabs in buildings. This practice, which has been around since Roman times, is both architecturally constraining and a key driver behind the high embodied carbon emissions associated with concrete structures. As much as half of the concrete in a building could be saved, if only we approached the use of the material in a different way. Optimised concrete Concrete starts its life as a fluid and can therefore be used to form structures of almost any shape, given the right mould geometry. ACORN will capitalise on this material property to drive the minimisation of embodied carbon in new building structures. The team will create an end-to-end digital process to automate the manufacture of non-prismatic building elements, capitalising on the recent proliferation of affordable robotics and bring them into an industry ripe for a step-change in sustainability and productivity. Something as simple as allowing beams, columns and floor-slabs to have the shape they need to take load, rather than the shape they need to be easily formed, allows a complete rethink of the way material is used in buildings. Fabrication of concrete elements By moving the manufacture of structural concrete elements into a highly controlled factory environment, ACORN aims to ensure that buildings can become more sustainable and the construction industry more productive. Considerations such as the materials to be used, how reinforcement is placed efficiently, how to take into account whole-life value, and how to organise the design process to take advantage of the new possibilities of robotics, will all be considered within the sphere of the project. Demonstration building The key to transforming this conservative industry is to lead by example. One of the most exciting parts of the project, is the proposed construction of two bays of a full-size prototype office building, to be completed at the BRE Innovation Park in Watford. One bay will be left with an exposed structure to show the methods and techniques used in its manufacture, the other bay will be fitted-out as an office building, with roof, walls, façade and internal finishings, to show how the techniques translate into an architectural solution. The demonstration building will serve multiple purposes. On an academic level, it will contribute to the research agenda by acting as a living laboratory. Embedded sensors will collect and share useful live data about how the building is performing structurally, as well as what loads the different parts are carrying. The BRE Innovation Park is visited by 20,000 people annually and data will also be collected from those visitors in user surveys, to evaluate the new appearance. The building's eventual deconstruction will also be an opportunity to verify how the whole-life value drivers for automation perform in reality. Benefits The ACORN project is expected to produce a number of benefits. Reducing reliance on concrete will have a positive environmental effect - construction accounts for nearly half of the UK's carbon emissions and concrete alone for five per cent of global CO2 emissions. There is also huge cost-saving potential - ACORN's research has identified close to £4bn in cost savings for UK construction per annum, that would arise directly from better consideration of material use. Globally, a mere one per cent reduction in construction cost would save $100bn annually. ACORN's focus on automated manufacturing and digital processes to reduce both fabrication and build time are key parts in realising better value. The project will benefit from the contributions of 12 industry partners, including architects, engineers and building contractors, who will work alongside the ACORN team to ensure outputs will bring value to industry. The professions will also benefit with architects able to explore a new form of construction; engineers gaining insights into the real loads such structures have to carry during their lifetime; and contractors having the tools they need to increase quality control, productivity and fabrication time, while de-risking the construction site. ACORN is tackling the UK government's Construction 2025 targets head-on. By automating construction, moving it off-site, and developing a culture of using just enough material, and no more, the project will lower costs, reduce delivery times and dramatically reduce carbon emissions.
Collaborator Contribution	As above.
Impact	Not yet known.
Start Year	2019


Description	Automating concrete construction: digital processes for whole-life sustainability and productivity
Organisation	University of Dundee
Country	United Kingdom
Sector	Academic/University
PI Contribution	CSIC Investigators are collaborating with colleagues from the Universities of Bath and Dundee to drive a new culture in the construction industry to improve whole-life sustainability and productivity. CSIC is a project partner and Director Dr Jennifer Schooling chairs the steering group. Automating Concrete Construction (ACORN) is one of four research and development projects funded by UK Research and Innovation (UKRI) under the Industrial Strategy Challenge Fund 'Transforming Construction'. The three-year project will address the core aims of the programme: designing and managing buildings through digitally enabled simulation and constructing quality buildings through offsite manufacturing approaches. ACORN aims to create a culture that takes a holistic approach to the manufacture, assembly, reuse and deconstruction of concrete buildings. This will lead to a healthier, safer built environment and a culture that is built on the concept of using enough material, and no more. The challenge Today, the widespread use of flat panel formwork for concrete leads to materially inefficient prismatic shapes for the beams, columns, and floor-slabs in buildings. This practice, which has been around since Roman times, is both architecturally constraining and a key driver behind the high embodied carbon emissions associated with concrete structures. As much as half of the concrete in a building could be saved, if only we approached the use of the material in a different way. Optimised concrete Concrete starts its life as a fluid and can therefore be used to form structures of almost any shape, given the right mould geometry. ACORN will capitalise on this material property to drive the minimisation of embodied carbon in new building structures. The team will create an end-to-end digital process to automate the manufacture of non-prismatic building elements, capitalising on the recent proliferation of affordable robotics and bring them into an industry ripe for a step-change in sustainability and productivity. Something as simple as allowing beams, columns and floor-slabs to have the shape they need to take load, rather than the shape they need to be easily formed, allows a complete rethink of the way material is used in buildings. Fabrication of concrete elements By moving the manufacture of structural concrete elements into a highly controlled factory environment, ACORN aims to ensure that buildings can become more sustainable and the construction industry more productive. Considerations such as the materials to be used, how reinforcement is placed efficiently, how to take into account whole-life value, and how to organise the design process to take advantage of the new possibilities of robotics, will all be considered within the sphere of the project. Demonstration building The key to transforming this conservative industry is to lead by example. One of the most exciting parts of the project, is the proposed construction of two bays of a full-size prototype office building, to be completed at the BRE Innovation Park in Watford. One bay will be left with an exposed structure to show the methods and techniques used in its manufacture, the other bay will be fitted-out as an office building, with roof, walls, façade and internal finishings, to show how the techniques translate into an architectural solution. The demonstration building will serve multiple purposes. On an academic level, it will contribute to the research agenda by acting as a living laboratory. Embedded sensors will collect and share useful live data about how the building is performing structurally, as well as what loads the different parts are carrying. The BRE Innovation Park is visited by 20,000 people annually and data will also be collected from those visitors in user surveys, to evaluate the new appearance. The building's eventual deconstruction will also be an opportunity to verify how the whole-life value drivers for automation perform in reality. Benefits The ACORN project is expected to produce a number of benefits. Reducing reliance on concrete will have a positive environmental effect - construction accounts for nearly half of the UK's carbon emissions and concrete alone for five per cent of global CO2 emissions. There is also huge cost-saving potential - ACORN's research has identified close to £4bn in cost savings for UK construction per annum, that would arise directly from better consideration of material use. Globally, a mere one per cent reduction in construction cost would save $100bn annually. ACORN's focus on automated manufacturing and digital processes to reduce both fabrication and build time are key parts in realising better value. The project will benefit from the contributions of 12 industry partners, including architects, engineers and building contractors, who will work alongside the ACORN team to ensure outputs will bring value to industry. The professions will also benefit with architects able to explore a new form of construction; engineers gaining insights into the real loads such structures have to carry during their lifetime; and contractors having the tools they need to increase quality control, productivity and fabrication time, while de-risking the construction site. ACORN is tackling the UK government's Construction 2025 targets head-on. By automating construction, moving it off-site, and developing a culture of using just enough material, and no more, the project will lower costs, reduce delivery times and dramatically reduce carbon emissions.
Collaborator Contribution	As above.
Impact	Not yet known.
Start Year	2019


Description	BGS-Ruchi Choudhary
Organisation	British Geological Survey
Country	United Kingdom
Sector	Academic/University
PI Contribution	We partnered with the Urban Geo-Science team of British Geological Society for six months (October 2017-March 2018). Innovate UK funded their secondment at CSIC. Jointly, we developed an integrated 3D database of below and above ground features of London for the objective of sustainable use of underground space.
Collaborator Contribution	PhD student Mingda Yuan has assimilated database of below ground structures. BGS analyzed the below ground geological properties (thermo-hydro). PDRA Asal Bidarmaghz used these to implement large-scale finite element models to assess the long term influence of heated underground spaces on ground thermal properties.
Impact	1. We have co-authored and submitted 2 journal articles 2. We have submitted 1 co-authored conference paper 3. BGS has agreed to support future work. They provided letter of support for a grant application submitted to EPSRC-NSF in November 2018 4. This collaboration is multi-disciplinary involving civil engineers and geo-scientists. 5. The Data-centric Engineering program of the Alan Turing Institute is supporting a 3 year PDRA (2019-2021) to take forward this work, and thus it now also involves data-science in addition to engineering and geo-science.
Start Year	2017


Description	BP - AS
Organisation	BP (British Petroleum)
Country	United Kingdom
Sector	Private
PI Contribution	Improving reservoir management using MEMS sensors
Collaborator Contribution	Improving reservoir management using MEMS sensors
Impact	Improving reservoir management using MEMS sensors
Start Year	2010


Description	Bechtel - PTK
Organisation	Bechtel Corporation
Country	United States
Sector	Private
PI Contribution	HS2 Excavation monitoring of heave
Collaborator Contribution	HS2 Excavation monitoring of heave
Impact	HS2 Excavation monitoring of heave
Start Year	2016


Description	Beijing Information Sci & Techn University - DC
Organisation	Beijing Information Science & Technology University
Country	China
Sector	Academic/University
PI Contribution	To supply low cost fibre analyser for field deployment
Collaborator Contribution	To supply low cost fibre analyser for field deployment
Impact	To supply low cost fibre analyser for field deployment
Start Year	2016


Description	Bevis Marks project
Organisation	Skanska UK Ltd
Department	Cementation Skanska
Country	United Kingdom
Sector	Private
PI Contribution	Installation of the instrumentation in the re-used piles
Collaborator Contribution	Cash and in-kind contribution for the project.
Impact	Cementation Skanska won the Ground Engineering Sustainability Award for work on the Bevis Marks project. A large part of the submission focused on reuse of the foundation and the use of optical fibre instrumentation. In particular, it highlighted the importance of such instrumentation, used in this way for the first time, in the success of this project. The innovative use of such sophisticated instrumentation to facilitate foundation reuse was commended by the judges. This award provides a great demonstration of the use and commercialisation of 'smart' optical fibre instrumentation and also highlights the work of University of Cambridge and the wider CSIC, in particular the Fibre Optic projects, being applied successfully in practice.
Start Year	2013


Description	British Geological Survey and University of California Berkeley
Organisation	British Geological Survey
Country	United Kingdom
Sector	Academic/University
PI Contribution	Co-published 2 journal articles and presented at 3 conferences. Large scale numerical modelling of shallow ground temperatures. Won a joint CMMI-NSF proposal with £450K per university partner
Collaborator Contribution	BGS provided geological and hydro-geological models at urban scale and UC Berkeley helped with the finite element modelling
Impact	New CMMI-EPSRC grant (EP/T019425/1) is a direct outcome of this collaboration.
Start Year	2017


Description	British Geological Survey and University of California Berkeley
Organisation	University of California, Berkeley
Country	United States
Sector	Academic/University
PI Contribution	Co-published 2 journal articles and presented at 3 conferences. Large scale numerical modelling of shallow ground temperatures. Won a joint CMMI-NSF proposal with £450K per university partner
Collaborator Contribution	BGS provided geological and hydro-geological models at urban scale and UC Berkeley helped with the finite element modelling
Impact	New CMMI-EPSRC grant (EP/T019425/1) is a direct outcome of this collaboration.
Start Year	2017


Description	Brookfield Multiplex Construction Europe - CK
Organisation	Brookfield
Department	Multiplex Construction Europe ltd
Country	United Kingdom
Sector	Private
PI Contribution	Axial shortening monitoring of tall residential tower
Collaborator Contribution	Axial shortening monitoring of tall residential tower
Impact	Axial shortening monitoring of tall residential tower
Start Year	2016


Description	Brookfield Multiplex Construction Europe Ltd no August 2016 to February 2018 Axial shortening monitoring of tall residential tower - Cedric Kechavarzi
Organisation	Brookfield
Department	Multiplex Construction Europe ltd
Country	United Kingdom
Sector	Private
PI Contribution	Brookfield Multiplex Construction Europe Ltd no August 2016 to February 2018 Axial shortening monitoring of tall residential tower
Collaborator Contribution	Brookfield Multiplex Construction Europe Ltd no August 2016 to February 2018 Axial shortening monitoring of tall residential tower
Impact	Brookfield Multiplex Construction Europe Ltd no August 2016 to February 2018 Axial shortening monitoring of tall residential tower
Start Year	2016


Description	Buro Happold - AKNP
Organisation	BuroHappold Engineering
Country	United Kingdom
Sector	Private
PI Contribution	Futureproofing
Collaborator Contribution	Futureproofing
Impact	Futureproofing
Start Year	2016


Description	CERN - PTK
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	Monitoring of LHC Tunnels
Collaborator Contribution	Monitoring of LHC Tunnels
Impact	Monitoring of LHC Tunnels
Start Year	2015


Description	CERN AEY
Organisation	European Organization for Nuclear Research (CERN)
Country	Switzerland
Sector	Academic/University
PI Contribution	Fibre Optic
Collaborator Contribution	Fibre Optic
Impact	Fibre Optic
Start Year	2015


Description	CERN, Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	CERN tunnel Concrete tunnels - Section 1
Collaborator Contribution	CERN tunnel Concrete tunnels - Section 1
Impact	CERN tunnel Concrete tunnels - Section 1
Start Year	2015


Description	CERN, Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	CERN tunnel Concrete tunnels - Section 2 & I-beams
Collaborator Contribution	CERN tunnel Concrete tunnels - Section 2 & I-beams
Impact	CERN tunnel Concrete tunnels - Section 2 & I-beams
Start Year	2015


Description	CERN, Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	CERN tunnel Concrete tunnels - AWAKE section
Collaborator Contribution	CERN tunnel Concrete tunnels - AWAKE section
Impact	CERN tunnel Concrete tunnels - AWAKE section
Start Year	2016


Description	CERN, Arup - CK
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	CERN tunnel Concrete tunnels - Atlas section
Collaborator Contribution	CERN tunnel Concrete tunnels - Atlas section
Impact	CERN tunnel Concrete tunnels - Atlas section
Start Year	2015


Description	CERN, Arup - CK
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	CERN tunnel Concrete tunnels - Section 2 & I-beams
Collaborator Contribution	CERN tunnel Concrete tunnels - Section 2 & I-beams
Impact	CERN tunnel Concrete tunnels - Section 2 & I-beams
Start Year	2015


Description	CERN, Arup - CK
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	CERN tunnel Concrete tunnels - Section 1
Collaborator Contribution	CERN tunnel Concrete tunnels - Section 1
Impact	CERN tunnel Concrete tunnels - Section 1
Start Year	2015


Description	CERN, Arup - CK
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	CERN tunnel Concrete tunnels - AWAKE section
Collaborator Contribution	CERN tunnel Concrete tunnels - AWAKE section
Impact	CERN tunnel Concrete tunnels - AWAKE section
Start Year	2016


Description	CERN, Arup - CK
Organisation	European Organization for Nuclear Research (CERN)
Department	CERN - Other
Country	Switzerland
Sector	Academic/University
PI Contribution	CERN tunnel Concrete tunnels - Atlas section
Collaborator Contribution	CERN tunnel Concrete tunnels - Atlas section
Impact	CERN tunnel Concrete tunnels - Atlas section
Start Year	2015


Description	CH2M - PTK
Organisation	CH2M HILL
Country	United States
Sector	Private
PI Contribution	HS2 Pile monitoring
Collaborator Contribution	HS2 Pile monitoring
Impact	HS2 Pile monitoring
Start Year	2016


Description	CH2MHil(Halcrow) - PTK
Organisation	CH2M HILL
Country	United States
Sector	Private
PI Contribution	PO Tunnel
Collaborator Contribution	PO Tunnel
Impact	PO Tunnel
Start Year	2014


Description	CSIC Formal Partner-FDH Infrastructure Services
Organisation	FDH Infrastructure Services
Country	United States
Sector	Private
PI Contribution	Formal CSIC partner
Collaborator Contribution	As above.
Impact	Not yet know
Start Year	2019


Description	CSIC Formal Partner-Royal Haskoning DHV UK
Organisation	Royal HaskoningDHV
Country	United Kingdom
Sector	Private
PI Contribution	Formal CSIC partner
Collaborator Contribution	As above
Impact	Not yet know
Start Year	2019


Description	CSIC Formal Partner-Sintela
Organisation	Sintela
Country	United Kingdom
Sector	Private
PI Contribution	Formal CSIC Partner
Collaborator Contribution	As above.
Impact	Not yet know.
Start Year	2019


Description	CSIC Industry Collaborations - non-partner
Organisation	ARM Holdings
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	American International Group
Country	United States
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Amey PLC
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Anglian Water Services
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Balfour Beatty
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Beijing Institute of Architectural Design
Country	China
Sector	Academic/University
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	BuroHappold Engineering
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	CSEM Brasil
Country	Brazil
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Capita
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Cemex plc
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Chapman Taylor LLP
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Dragados
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Environment Agency
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Future Cities Catapult Limited
Country	United Kingdom
Sector	Charity/Non Profit
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	HST
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Mabey plc
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	McLaren Applied Technologies
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Morgan Sindall Group
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	National Physical Laboratory
Country	United Kingdom
Sector	Academic/University
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	PTV System Software und Consulting GmbH
Country	Germany
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Royal Institution of Chartered Surveyors
Country	United Kingdom
Sector	Academic/University
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Severn Trent Water
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Spiekermann & Wegener
Country	Germany
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Sybersystems Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Telespazio Vega (IDEAS)
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	The Staffordshire Alliance
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	The Woodhouse Partnership
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Tidworth Mums
Country	United Kingdom
Sector	Charity/Non Profit
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	UK Tram Centro
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Collaborations - non-partner
Organisation	Utterberry Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute considerably in in-kind contributions, usually by providing expert advice, Steering Group or Task Group involvement, or access to sites. This value of site access is not to be under-estimated. For instance, the provision of access to London Underground tube lines at 2am brings with it the need for 'sponsor' manpower as our teams need to be accompanied; and Staffordshire Alliance's support in facilitating the instrumentation of new bridges during construction required integration of CSIC researchers into the Alliance's staff teams for extended periods of time. This support is difficult to attribute a value to, but a nominal calculation of £1000 per man day dedicated to CSIC business has been used to provide a rough calculation.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Aeroflex Ltd
Country	United States
Sector	Academic/University
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Building Research Establishment
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	CIRIA
Country	United Kingdom
Sector	Charity/Non Profit
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Crossrail
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Department of Transport
Department	Highways Agency
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	GE Aviation Systems
Country	United States
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Geosense
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Geotechnical Observations
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Halcrow Group
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Humber Bridge Board
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	IBM
Department	IBM UK Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Imetrum
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Itmsoil
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Laing O'Rourke
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Mott Macdonald UK Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	NXP Semiconductors was Philips Semiconductor
Country	Netherlands
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Network Rail Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Omnisense
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Parsons Brinckerhoff
Country	United States
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	RedBite Solutions
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	RolaTube
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Scottish Water
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Senceive
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Skanska UK Ltd
Department	Cementation Skanska
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Soldata Group
Country	Global
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Thales Group
Country	France
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Thames Water Utilities Limited
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	The National Grid Co plc
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Topcon
Country	Japan
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Toshiba Research Europe Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Transport Research Laboratory Ltd (TRL)
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Transport Scotland
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Transport for London
Department	London Underground
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Transport for London
Country	United Kingdom
Sector	Public
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Tube Lines Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	WS Atkins
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	WSP Group plc
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC Industry Partner Collaborations
Organisation	Zuehlke Engineering AG
Department	Zuhlke UK
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult. These collaborations have resulted in over 55 demonstration sites and case studies on innovative technology, methods and tools.
Start Year	2011


Description	CSIC RA Funding Project - Deep foundation automatic anomaly detection and visualisation system
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	The proposed research aims to develop an automated pile integrity interpretation framework that uses thermal distributed fibre optic (FO) methodology, finite element modelling and machine learning techniques. In the first and second stages, using a full-scale well controlled laboratorytest, the project will firstly develop a system to visualise the pile construction process using collected date and an effective interpretation method for assessing the structural integrity of the pile. Then, machine leaning techniques will be used to recognise the defect patterns within the pile to establish a rapid anomaly response system. An automatic defect detection prototype (software) will be developed at the end of the first stage which allows automatic defection including the location of the defect and its size using minimal human input. In the third stage, the project aims to study the complex strain and temperature coupling effect for early age concrete. The study outcomes will not only help to improve the capability of the anomaly detection system, but will enable the whole-life performance assessment of the concrete piles and hence a benchmark for pile re-use in future.
Collaborator Contribution	As above.
Impact	Project still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Deep foundation automatic anomaly detection and visualisation system
Organisation	Skanska UK Ltd
Department	Cementation Skanska
Country	United Kingdom
Sector	Private
PI Contribution	The proposed research aims to develop an automated pile integrity interpretation framework that uses thermal distributed fibre optic (FO) methodology, finite element modelling and machine learning techniques. In the first and second stages, using a full-scale well controlled laboratorytest, the project will firstly develop a system to visualise the pile construction process using collected date and an effective interpretation method for assessing the structural integrity of the pile. Then, machine leaning techniques will be used to recognise the defect patterns within the pile to establish a rapid anomaly response system. An automatic defect detection prototype (software) will be developed at the end of the first stage which allows automatic defection including the location of the defect and its size using minimal human input. In the third stage, the project aims to study the complex strain and temperature coupling effect for early age concrete. The study outcomes will not only help to improve the capability of the anomaly detection system, but will enable the whole-life performance assessment of the concrete piles and hence a benchmark for pile re-use in future.
Collaborator Contribution	As above.
Impact	Project still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Digital Twins of Urban Farms
Organisation	Alan Turing Institute
Country	United Kingdom
Sector	Academic/University
PI Contribution	The objective of seeking CSIC funding is to maximize fully the achievements-to-date on the digital twin of the world's first underground farm by delivering it at a high TRL and testing it for usability and reproducibility in a collaboration between CSIC and the Research Software Engineers at Turing.
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Digital Twins of Urban Farms
Organisation	Growing Underground
Country	United Kingdom
Sector	Private
PI Contribution	The objective of seeking CSIC funding is to maximize fully the achievements-to-date on the digital twin of the world's first underground farm by delivering it at a high TRL and testing it for usability and reproducibility in a collaboration between CSIC and the Research Software Engineers at Turing.
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Digital Twins of Urban Farms
Organisation	Imperial College London
Country	United Kingdom
Sector	Academic/University
PI Contribution	The objective of seeking CSIC funding is to maximize fully the achievements-to-date on the digital twin of the world's first underground farm by delivering it at a high TRL and testing it for usability and reproducibility in a collaboration between CSIC and the Research Software Engineers at Turing.
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Export cable stability for offshore wind turbine arrays
Organisation	Cura Analytica
Country	United Kingdom
Sector	Private
PI Contribution	This project will focus on alleviating the potential risk of over-estimating wind farm export cable fatigue problems via three activities: (i) Assess experimentally the validity of various models for pipeline (or cable) breakout in sands under combined loading via 1g laboratory testing (delivered by post-doc and PI Stanier & Co-I Viggiani); (ii) Evaluate the impact of varying models for cable restraint on export cable fatigue using finite element methods (delivered by MRes student and PI Stanier & Co-I Viggiani); and (iii) Develop a prototype system for cable fatigue monitoring using fibre optic technologies that could potentially be deployed in the field (delivered by post-doc and PI Stanier & Co-I Viggiani).
Collaborator Contribution	Expert in subsea cable fatigue design. Will provide access to commercial Orcaflex license for FE simulations. Key local contact for the offshore wind consultancy sector.
Impact	Project still active, outputs and outcomes not yet know.
Start Year	2020


Description	CSIC RA Funding Project - Inside concrete - distributed spatial and temporal fibre optic sensing
Organisation	University of Oxford
Country	United Kingdom
Sector	Academic/University
PI Contribution	1. To validate and calibrate distributed optical fibre sensing systems as accurate measures of temporal and spatial temperature and strain in fresh and hardened concrete. 2. To explore how distributed sensor indicators could be used as early age predictive measures for conventional ordinary Portland cement and more sustainable low-carbon mixes. Better predictors of concrete strength reduce uncertainty, enhance productivity and improve efficiency. The insight could also be used to adapt manufacturing processes and to promote acceptance of low carbon cementitious elements. 3. To determine the feasibility of a back-scattering spectrometer based system for monitoring internal concrete temperature and strain. 4. To undertake a scoping study of the added value of 'Inside concrete' fibre optic sensing during the fresh state curing process and consider how this might be extrapolated across different
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet known.
Start Year	2020


Description	CSIC RA Funding Project - Inside concrete - distributed spatial and temporal fibre optic sensing
Organisation	University of Southampton
Country	United Kingdom
Sector	Academic/University
PI Contribution	1. To validate and calibrate distributed optical fibre sensing systems as accurate measures of temporal and spatial temperature and strain in fresh and hardened concrete. 2. To explore how distributed sensor indicators could be used as early age predictive measures for conventional ordinary Portland cement and more sustainable low-carbon mixes. Better predictors of concrete strength reduce uncertainty, enhance productivity and improve efficiency. The insight could also be used to adapt manufacturing processes and to promote acceptance of low carbon cementitious elements. 3. To determine the feasibility of a back-scattering spectrometer based system for monitoring internal concrete temperature and strain. 4. To undertake a scoping study of the added value of 'Inside concrete' fibre optic sensing during the fresh state curing process and consider how this might be extrapolated across different
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet known.
Start Year	2020


Description	CSIC RA Funding Project - Modular design for underground construction
Organisation	Laing O'Rourke
Country	United Kingdom
Sector	Private
PI Contribution	The goal of this proposal is to revolutionise the approach to delivery of large underground basements with tools for design and implementation of modular off-site construction for increased productivity, faster completion and reduced carbon.
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet know
Start Year	2020


Description	CSIC RA Funding Project - Modular design for underground construction
Organisation	Smith and Wallwork
Country	United Kingdom
Sector	Private
PI Contribution	The goal of this proposal is to revolutionise the approach to delivery of large underground basements with tools for design and implementation of modular off-site construction for increased productivity, faster completion and reduced carbon.
Collaborator Contribution	As above.
Impact	Project is still active, outputs and outcomes not yet know
Start Year	2020


Description	CSIC RA Funding Project - Whole life carbon costing in the context of ACORN - and beyond
Organisation	Arup Group
Country	United Kingdom
Sector	Private
PI Contribution	- Identify/Develop techniques to quantify the whole-life cost and carbon impact of the new methods of construction. - Evaluate existing carbon-counting tools available to infrastructure and construction industry, to determine utility to the industry in e.g. assessing most appropriate interventions on existing assets wrt carbon - Create guidance for industry in terms of 'getting the basics right' with respect to carbon assessment and minimising CO2 emissions and resource use
Collaborator Contribution	LOR Access to factory and construction sites McKinsey Advisor on process mapping and carbon accounting Costain Access to construction sites Qualisflow Advisor on process mapping and carbon accounting Arup Advisor on process mapping and carbon accounting
Impact	Project still active, outputs and outcomes not yet known
Start Year	2020


Description	CSIC RA Funding Project - Whole life carbon costing in the context of ACORN - and beyond
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	- Identify/Develop techniques to quantify the whole-life cost and carbon impact of the new methods of construction. - Evaluate existing carbon-counting tools available to infrastructure and construction industry, to determine utility to the industry in e.g. assessing most appropriate interventions on existing assets wrt carbon - Create guidance for industry in terms of 'getting the basics right' with respect to carbon assessment and minimising CO2 emissions and resource use
Collaborator Contribution	LOR Access to factory and construction sites McKinsey Advisor on process mapping and carbon accounting Costain Access to construction sites Qualisflow Advisor on process mapping and carbon accounting Arup Advisor on process mapping and carbon accounting
Impact	Project still active, outputs and outcomes not yet known
Start Year	2020


Description	CSIC RA Funding Project - Whole life carbon costing in the context of ACORN - and beyond
Organisation	Laing O'Rourke
Country	United Kingdom
Sector	Private
PI Contribution	- Identify/Develop techniques to quantify the whole-life cost and carbon impact of the new methods of construction. - Evaluate existing carbon-counting tools available to infrastructure and construction industry, to determine utility to the industry in e.g. assessing most appropriate interventions on existing assets wrt carbon - Create guidance for industry in terms of 'getting the basics right' with respect to carbon assessment and minimising CO2 emissions and resource use
Collaborator Contribution	LOR Access to factory and construction sites McKinsey Advisor on process mapping and carbon accounting Costain Access to construction sites Qualisflow Advisor on process mapping and carbon accounting Arup Advisor on process mapping and carbon accounting
Impact	Project still active, outputs and outcomes not yet known
Start Year	2020


Description	CSIC RA Funding Project - Whole life carbon costing in the context of ACORN - and beyond
Organisation	McKinsey & Company
Department	McKinsey & Company
Country	United Kingdom
Sector	Private
PI Contribution	- Identify/Develop techniques to quantify the whole-life cost and carbon impact of the new methods of construction. - Evaluate existing carbon-counting tools available to infrastructure and construction industry, to determine utility to the industry in e.g. assessing most appropriate interventions on existing assets wrt carbon - Create guidance for industry in terms of 'getting the basics right' with respect to carbon assessment and minimising CO2 emissions and resource use
Collaborator Contribution	LOR Access to factory and construction sites McKinsey Advisor on process mapping and carbon accounting Costain Access to construction sites Qualisflow Advisor on process mapping and carbon accounting Arup Advisor on process mapping and carbon accounting
Impact	Project still active, outputs and outcomes not yet known
Start Year	2020


Description	CSIC RA Funding Project - Whole life carbon costing in the context of ACORN - and beyond
Organisation	Qualisflow
Country	United Kingdom
Sector	Private
PI Contribution	- Identify/Develop techniques to quantify the whole-life cost and carbon impact of the new methods of construction. - Evaluate existing carbon-counting tools available to infrastructure and construction industry, to determine utility to the industry in e.g. assessing most appropriate interventions on existing assets wrt carbon - Create guidance for industry in terms of 'getting the basics right' with respect to carbon assessment and minimising CO2 emissions and resource use
Collaborator Contribution	LOR Access to factory and construction sites McKinsey Advisor on process mapping and carbon accounting Costain Access to construction sites Qualisflow Advisor on process mapping and carbon accounting Arup Advisor on process mapping and carbon accounting
Impact	Project still active, outputs and outcomes not yet known
Start Year	2020


Description	CSIC SME collaborations
Organisation	American Transmission Company
Country	United States
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Auriga Europe
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Cambridge Consultants
Department	DropTag
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	EnLight
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	FBGS
Country	Germany
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	FlyingBinary
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Getec Group
Country	Germany
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	ITM Monitoring
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Lafarge Tarmac
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Montec Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Omnisense
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Oxbotica
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	RedBite Solutions
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Senceive
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Sengenia Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Sensornet
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Sky High Technology Ltd
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Speedy Hire
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	Spliceteq Communications
Country	United Kingdom
Sector	Private
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CSIC SME collaborations
Organisation	University of Cambridge
Department	Cambridge Auto-ID Lab
Country	United Kingdom
Sector	Academic/University
PI Contribution	CSIC contributes cutting edge research into innovative solutions for construction efficiencies and structural health monitoring of existing national infrastructure assets, while developing tools and resources to enable and facilitate asset management as a value-based system at the network level, and leveraging impact into city planning policy. CSIC's evolving work with SMEs enables them to connect to markets where they never had contact before - CSIC was a good connectivity hub, helping them make contact with customers who are ready to purchase products and services. With Montec, we probably helped them put their innovation into perspective (particularly regarding the monitoring of ferrous, or ferrous-containing structures, which applies to most infrastructure assets as such). They were then able to focus on masonry structures which will help them further their business.
Collaborator Contribution	CSIC's Industry Partners contribute approximately £7 Million in in-kind funding, such as access to the London Underground Tunnels at 2am, which is almost impossible to price, and expertise of national leaders in asset management and innovative product design. CSIC links many of the big consultancies in the CSIC Industry Partner group with SMEs working on innovative solutions of which the consultancies may not be aware.
Impact	CSIC's Industry Partner Collaborations are multi-disciplinary, as they involve collaborative projects in areas as diverse as MEMS Vibrating Energy Harvesters, up to city-scale modelling work with government departments and bodies, such as the Future Cities Catapult.
Start Year	2011


Description	CUED Cambridge University - CK
Organisation	University of Cambridge
Department	Department of Engineering
Country	United Kingdom
Sector	Academic/University
PI Contribution	James Dyson Building, Piles, columns, beams & slabs
Collaborator Contribution	James Dyson Building, Piles, columns, beams & slabs
Impact	James Dyson Building, Piles, columns, beams & slabs
Start Year	2015


Description	CUED, Cambridge University, Cambridge - CK
Organisation	University of Cambridge
Department	Department of Engineering
Country	United Kingdom
Sector	Academic/University
PI Contribution	James Dyson Building, Building scanning
Collaborator Contribution	James Dyson Building, Building scanning
Impact	James Dyson Building, Building scanning
Start Year	2015


Description	Cambridge County Council - CK
Organisation	Cambridge City Council
Country	United Kingdom
Sector	Public
PI Contribution	Whole life value based bridge work prioritisation
Collaborator Contribution	Whole life value based bridge work prioritisation
Impact	Whole life value based bridge work prioritisation
Start Year	2015


Description	Cambridgeshire County Council - ES
Organisation	Cambridgeshire County Council
Country	United Kingdom
Sector	Public
PI Contribution	Land use - transport /mobility
Collaborator Contribution	Land use - transport /mobility
Impact	Land use - transport /mobility
Start Year	2016


Description	Central Alliance
Organisation	Central Alliance
Country	United Kingdom
Sector	Private
PI Contribution	Cumbrian bridge monitoring
Collaborator Contribution	Cumbrian bridge monitoring
Impact	Cumbrian bridge monitoring
Start Year	2016


Description	Centro - JT
Organisation	Centro plc
Country	United Kingdom
Sector	Private
PI Contribution	Establishment of collaborative project on vehicle-based track condition monitoring, incl. supply of tram, access to depot facilities and support during installation of instrumentation
Collaborator Contribution	Establishment of collaborative project on vehicle-based track condition monitoring, incl. supply of tram, access to depot facilities and support during installation of instrumentation
Impact	Establishment of collaborative project on vehicle-based track condition monitoring, incl. supply of tram, access to depot facilities and support during installation of instrumentation
Start Year	2015


Description	City-scale energy analysis - École Normale Supérieure de Cachan
Organisation	École Normale Supérieure de Cachan
Country	France
Sector	Academic/University
PI Contribution	Dr. Choudhary visited the Civil Engineering Department in Summer 2015 for 6 weeks (April-May), and worked with students there on the topic of visualization of city-scale energy data. In September 2017, she was hosted for a month as Invited Professor in the Department.
Collaborator Contribution	In 2015 École Normale Supérieure de Cachan provided technical expertise and resources for interactive visualization of data. As a follow up, a student from ENS visited the B-bem group for a 9 month internship period where we mentored him on the topic of quantifying uncertainties in internal loads of buildings at city scale.
Impact	A student from École Normale Supérieure de Cachan visited as a research intern for 12 months (October 2015-2016) to work on this topic. Dr. Choudhary was invited as Visiting Professor for 4 weeks in September 2016 and 2018 to work with new students.
Start Year	2015


Description	Collaboration with University of Tokyo
Organisation	University of Tokyo
Department	Institute of Industrial Science
Country	Japan
Sector	Academic/University
PI Contribution	- Guest Professor at Ooka Lab, Institute of Industrial Science for 4 months (Sept-December 2015) supported by an invitational Fellowship by Japan Society of Promotion of Science. - Interacted with PhD students and staff on the following topics: uncertainty analysis, distributed energy systems, exergy analysis of building energy systems. - Since 2015, we have regular annual visits to each others labs
Collaborator Contribution	The Ooka Lab invited Cambridge PhD student Bryn Pickering for 2 week visit in December 2015. We have co-authored 2 peer-reviewed conference articles and 3 journal publications. From the B-bem project, PDRA Kathrin Menberg has been heavily involved in these collaborations. We have worked with University of Tokyo to carry out uncertainty analysis in the estimation of ground thermal properties for geo-energy systems. In turn- University of Tokyo helped us carry out exergy analysis of heat pump systems, which enabled us to have an improved understanding of system efficiencies.
Impact	1. 2018 visiting researcher from U. of Tokyo hosted by Alan Turing Institute 2. Uncertainty Analysis: 2 journal articles in 2018 3. Exergy Analysis: 1 conference publication (2017), and 1 journal paper (2017). 4. Distributed Energy Systems: 1 conference publication in 2016.
Start Year	2015


Description	Cornell University May-17 Laboratory scale pipeline testing - Cedric Kechavarzi
Organisation	Cornell University
Country	United States
Sector	Academic/University
PI Contribution	Cornell University May-17 Laboratory scale pipeline testing
Collaborator Contribution	Cornell University May-17 Laboratory scale pipeline testing
Impact	Cornell University May-17 Laboratory scale pipeline testing
Start Year	2017


Description	Costain - BIM - AKNP
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	BIM
Collaborator Contribution	BIM
Impact	BIM
Start Year	2016


Description	Costain - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Tram track monitoring
Collaborator Contribution	Tram track monitoring
Impact	Tram track monitoring
Start Year	2016


Description	Costain - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	London Bridge station, noise and pollution monitoring
Collaborator Contribution	London Bridge station, noise and pollution monitoring
Impact	London Bridge station, noise and pollution monitoring
Start Year	2015


Description	Costain - Crossrail - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Whole life costing of station: Client requirement analysis
Collaborator Contribution	Whole life costing of station: Client requirement analysis
Impact	Whole life costing of station: Client requirement analysis
Start Year	2015


Description	Costain - Crossrail - CK
Organisation	Crossrail
Country	United Kingdom
Sector	Private
PI Contribution	Whole life costing of station: Client requirement analysis
Collaborator Contribution	Whole life costing of station: Client requirement analysis
Impact	Whole life costing of station: Client requirement analysis
Start Year	2015


Description	Costain - Crossrail Bond Street Station - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Futureproofing information and Building Information Modelling (BIM)
Collaborator Contribution	Futureproofing information and Building Information Modelling (BIM)
Impact	Futureproofing information and Building Information Modelling (BIM)
Start Year	2015


Description	Costain - Crossrail Bond Street Station - CK
Organisation	Crossrail
Country	United Kingdom
Sector	Private
PI Contribution	Futureproofing information and Building Information Modelling (BIM)
Collaborator Contribution	Futureproofing information and Building Information Modelling (BIM)
Impact	Futureproofing information and Building Information Modelling (BIM)
Start Year	2015


Description	Costain - Highways Agency - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Future proofing information for long term infrastructure management
Collaborator Contribution	Future proofing information for long term infrastructure management
Impact	Future proofing information for long term infrastructure management
Start Year	2015


Description	Costain - NdB
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Monitoring of light rail test track
Collaborator Contribution	Monitoring of light rail test track
Impact	Monitoring of light rail test track
Start Year	2016


Description	Costain - PTK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Costain light rail track instrumentation with bend sensors
Collaborator Contribution	Costain light rail track instrumentation with bend sensors
Impact	Costain light rail track instrumentation with bend sensors
Start Year	2016


Description	Costain - PTK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Various London Bridge monitoring projects at construction sites
Collaborator Contribution	Various London Bridge monitoring projects at construction sites
Impact	Various London Bridge monitoring projects at construction sites
Start Year	2015


Description	Costain AKNP
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	ICASE Project on Data-driven engineering for improving the performance of asset management
Collaborator Contribution	ICASE Project on Data-driven engineering for improving the performance of asset management
Impact	ICASE Project on Data-driven engineering for improving the performance of asset management
Start Year	2016


Description	Costain Computer vision for tunnel monitoring JMS
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Computer vision for tunnel monitoring
Collaborator Contribution	Computer vision for tunnel monitoring
Impact	Computer vision for tunnel monitoring
Start Year	2016


Description	Costain light rail -testing of light railtrial
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	Site visits and discussion with client; Monitoring system design.
Collaborator Contribution	Site visits and discussion with client; Monitoring system design.
Impact	Site visits and discussion with client; Monitoring system design.
Start Year	2016


Description	Costain, Counterest - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	London Bridge station, people monitoring - Computer Vision
Collaborator Contribution	London Bridge station, people monitoring - Computer Vision
Impact	London Bridge station, people monitoring - Computer Vision
Start Year	2015


Description	Costain, Counterest - CK
Organisation	Counterest
Country	Spain
Sector	Private
PI Contribution	London Bridge station, people monitoring - Computer Vision
Collaborator Contribution	London Bridge station, people monitoring - Computer Vision
Impact	London Bridge station, people monitoring - Computer Vision
Start Year	2015


Description	Costain, Skyhigh - CK
Organisation	Costain Group
Country	United Kingdom
Sector	Private
PI Contribution	London Bridge station, people monitoring - Computer Vision
Collaborator Contribution	London Bridge station, people monitoring - Computer Vision
Impact	London Bridge station, people monitoring - Computer Vision
Start Year	2015


Description	Costain, Skyhigh - CK
Organisation	Sky High Technology Ltd
Country	United Kingdom
Sector	Private
PI Contribution	London Bridge station, people monitoring - Computer Vision
Collaborator Contribution	London Bridge station, people monitoring - Computer Vision
Impact	London Bridge station, people monitoring - Computer Vision
Start Year	2015

Abstract

Planned Impact

Organisations

People

ORCID iD

Publications