EPSRC Centre for Doctoral Training in Robotics and Autonomous Systems (RAS) in Edinburgh
Lead Research Organisation:
Heriot-Watt University
Department Name: Sch of Engineering and Physical Science
Abstract
Robots will revolutionise the world's economy and society over the next twenty years, working for us, beside us and interacting with us. The UK urgently needs graduates with the technical skills and industry awareness to create an innovation pipeline from academic research to global markets. Key application areas include manufacturing, assistive and medical robots, offshore energy, environmental monitoring, search and rescue, defence, and support for the aging population. The robotics and autonomous systems area has been highlighted by the UK Government in 2013 as one the 8 Great Technologies that underpin the UK's Industrial Strategy for jobs and growth.
The essential challenge can be characterised as how to obtain successful INTERACTIONS. Robots must interact physically with environments, requiring compliant manipulation, active sensing, world modelling and planning. Robots must interact with each other, making collaborative decisions between multiple, decentralised, heterogeneous robotic systems to achieve complex tasks. Robots must interact with people in smart spaces, taking into account human perception mechanisms, shared control, affective computing and natural multi-modal interfaces.Robots must introspect for condition monitoring, prognostics and health management, and long term persistent autonomy including validation and verification. Finally, success in all these interactions depend on engineering enablers, including architectural system design, novel embodiment, micro and nano-sensors, and embedded multi-core computing.
The Edinburgh alliance in Robotics and Autonomous Systems (EDU-RAS) provides an ideal environment for a Centre for Doctoral Training (CDT) to meet these needs. Heriot Watt University and the University of Edinburgh combine internationally leading science with an outstanding track record of exploitation, and world class infrastructure enhanced by a recent £7.2M EPSRC plus industry capital equipment award (ROBOTARIUM). A critical mass of experienced supervisors cover the underpinning disciplines crucial to autonomous interaction, including robot learning, field robotics, anthropomorphic & bio-inspired designs, human robot interaction, embedded control and sensing systems, multi-agent decision making and planning, and multimodal interaction. The CDT will enable student-centred collaboration across topic boundaries, seeking new research synergies as well as developing and fielding complete robotic or autonomous systems. A CDT will create cohort of students able to support each other in making novel connections between problems and methods; with sufficient shared understanding to communicate easily, but able to draw on each other's different, developing, areas of cutting-edge expertise.
The CDT will draw on a well-established program in postgraduate training to create an innovative four year PhD, with taught courses on the underpinning theory and state of the art and research training closely linked to career relevant skills in creativity, ethics and innovation. The proposed centre will have a strong participative industrial presence; thirty two user partners have committed to £9M (£2.4M direct, £6.6M in kind) support; and to involvement including Membership of External Advisory Board to direct and govern the program, scoping particular projects around specific interests, co-funding of PhD studentships, access to equipment and software, co-supervision of students, student placements, contribution to MSc taught programs, support for student robot competition entries including prize money, and industry lead training on business skills.
Our vision for the Centre is as a major international force that can make a generational leap in the training of innovation-ready postgraduates who are experienced in deployment of robotic and autonomous systems in the real world.
The essential challenge can be characterised as how to obtain successful INTERACTIONS. Robots must interact physically with environments, requiring compliant manipulation, active sensing, world modelling and planning. Robots must interact with each other, making collaborative decisions between multiple, decentralised, heterogeneous robotic systems to achieve complex tasks. Robots must interact with people in smart spaces, taking into account human perception mechanisms, shared control, affective computing and natural multi-modal interfaces.Robots must introspect for condition monitoring, prognostics and health management, and long term persistent autonomy including validation and verification. Finally, success in all these interactions depend on engineering enablers, including architectural system design, novel embodiment, micro and nano-sensors, and embedded multi-core computing.
The Edinburgh alliance in Robotics and Autonomous Systems (EDU-RAS) provides an ideal environment for a Centre for Doctoral Training (CDT) to meet these needs. Heriot Watt University and the University of Edinburgh combine internationally leading science with an outstanding track record of exploitation, and world class infrastructure enhanced by a recent £7.2M EPSRC plus industry capital equipment award (ROBOTARIUM). A critical mass of experienced supervisors cover the underpinning disciplines crucial to autonomous interaction, including robot learning, field robotics, anthropomorphic & bio-inspired designs, human robot interaction, embedded control and sensing systems, multi-agent decision making and planning, and multimodal interaction. The CDT will enable student-centred collaboration across topic boundaries, seeking new research synergies as well as developing and fielding complete robotic or autonomous systems. A CDT will create cohort of students able to support each other in making novel connections between problems and methods; with sufficient shared understanding to communicate easily, but able to draw on each other's different, developing, areas of cutting-edge expertise.
The CDT will draw on a well-established program in postgraduate training to create an innovative four year PhD, with taught courses on the underpinning theory and state of the art and research training closely linked to career relevant skills in creativity, ethics and innovation. The proposed centre will have a strong participative industrial presence; thirty two user partners have committed to £9M (£2.4M direct, £6.6M in kind) support; and to involvement including Membership of External Advisory Board to direct and govern the program, scoping particular projects around specific interests, co-funding of PhD studentships, access to equipment and software, co-supervision of students, student placements, contribution to MSc taught programs, support for student robot competition entries including prize money, and industry lead training on business skills.
Our vision for the Centre is as a major international force that can make a generational leap in the training of innovation-ready postgraduates who are experienced in deployment of robotic and autonomous systems in the real world.
Planned Impact
The Centre will have immediate short-term impacts on people skills and pipeline, alongside advances in scientific knowledge and techniques. However, with the strength of the program's training emphasis on innovation and social/societal challenges we also target longer term economic and societal benefits.
People: Centre graduates will be grounded in fundamental RAS topics and acquire advanced specialist scientific knowledge of crucial interaction themes. They will be skilled at teamwork, with a broader appreciation of RAS ethical issues. They will have international contacts and experience, with public presentation experience. Most importantly, they will be Innovation Ready - skilled in the principles of how technical and commercial disruption occurs, understanding how finance and organization realize new products and services in startup, SME and corporate situations. Their economic impact will be as industrial leaders of the future, foundational in realizing new products and services. This impact will be accelerated by our #Cauldron training programme in the interlinked areas of Scientific Cohesion, Research and Creativity Skills, Social and Societal Challenges, and programmed engagements and activities with our User Partners who shape the Centre's direction.
Science: The Centre will realize scientific advances, e.g. greater understanding of AI vs biomimetic approaches to persistent autonomy, advanced empathetic multimodal interaction between people and machines in smart spaces, advanced robotic micro-sensing and computing in soft embodiments, adaptive compliant actuation at a multitude of scales and form factors, semantic understanding of environments from noisy sensor data and more. Not only the advances, but also the research methods and practice to achieve them will be realized, e.g. hardware-in-the-loop architectures for re-usability and easy, low cost experimentation. The impact of these advances will be enhanced by strongly supported opportunities for dissemination, including conference presentations and publications (and training in presentation and writing skills), reciprocal secondments with Associate Research Partners, international student robot competitions, public outreach activities, CDT hosted international researcher visitors and workshops.
Society: Robotic and autonomous systems decrease cost and risk, increasing productivity while removing human operators from the 'dull, dirty and dangerous' tasks across the industries of our User Partners. Centre graduates and technology will contribute to maintaining UK business competitiveness and exports in this emerging Euro15.5Billion market, whilst improving quality of life for example a) more interesting (and prestigious) day-to-day employment for workers, b) assisted healthcare for an ageing population (including the Centre Directors), and c) greater awareness of environmental impacts and changes leading to policy and legislation.
People: Centre graduates will be grounded in fundamental RAS topics and acquire advanced specialist scientific knowledge of crucial interaction themes. They will be skilled at teamwork, with a broader appreciation of RAS ethical issues. They will have international contacts and experience, with public presentation experience. Most importantly, they will be Innovation Ready - skilled in the principles of how technical and commercial disruption occurs, understanding how finance and organization realize new products and services in startup, SME and corporate situations. Their economic impact will be as industrial leaders of the future, foundational in realizing new products and services. This impact will be accelerated by our #Cauldron training programme in the interlinked areas of Scientific Cohesion, Research and Creativity Skills, Social and Societal Challenges, and programmed engagements and activities with our User Partners who shape the Centre's direction.
Science: The Centre will realize scientific advances, e.g. greater understanding of AI vs biomimetic approaches to persistent autonomy, advanced empathetic multimodal interaction between people and machines in smart spaces, advanced robotic micro-sensing and computing in soft embodiments, adaptive compliant actuation at a multitude of scales and form factors, semantic understanding of environments from noisy sensor data and more. Not only the advances, but also the research methods and practice to achieve them will be realized, e.g. hardware-in-the-loop architectures for re-usability and easy, low cost experimentation. The impact of these advances will be enhanced by strongly supported opportunities for dissemination, including conference presentations and publications (and training in presentation and writing skills), reciprocal secondments with Associate Research Partners, international student robot competitions, public outreach activities, CDT hosted international researcher visitors and workshops.
Society: Robotic and autonomous systems decrease cost and risk, increasing productivity while removing human operators from the 'dull, dirty and dangerous' tasks across the industries of our User Partners. Centre graduates and technology will contribute to maintaining UK business competitiveness and exports in this emerging Euro15.5Billion market, whilst improving quality of life for example a) more interesting (and prestigious) day-to-day employment for workers, b) assisted healthcare for an ageing population (including the Centre Directors), and c) greater awareness of environmental impacts and changes leading to policy and legislation.
Organisations
- Heriot-Watt University (Lead Research Organisation)
- Dimensional Imaging (United Kingdom) (Project Partner)
- Transport Research Laboratory (United Kingdom) (Project Partner)
- BP (United Kingdom) (Project Partner)
- Hydrason Solutions Ltd (Project Partner)
- Leonardo (United Kingdom) (Project Partner)
- Touch Bionics (Project Partner)
- Kinova (Canada) (Project Partner)
- Schlumberger (United Kingdom) (Project Partner)
- Balfour Beatty (United Kingdom) (Project Partner)
- Industrial Systems and Control (United Kingdom) (Project Partner)
- Edinburgh International Science Festival (Project Partner)
- Rail Safety and Standards Board (United Kingdom) (Project Partner)
- KUKA (United Kingdom) (Project Partner)
- Thales (United Kingdom) (Project Partner)
- Honda (Germany) (Project Partner)
- Mactaggart Scott & Co Ltd (Project Partner)
- CRRC (United Kingdom) (Project Partner)
- General Dynamics (United Kingdom) (Project Partner)
- Shadow Robot (United Kingdom) (Project Partner)
- Subsea 7 Limited (Project Partner)
- Scisys (United Kingdom) (Project Partner)
- YDreams (Portugal) (Project Partner)
- Renishaw (United Kingdom) (Project Partner)
- Dyson Limited (Project Partner)
- Oliver Crispin Robotics (United Kingdom) (Project Partner)
- Pelamis Wave Power (United Kingdom) (Project Partner)
- Aquamarine Power (United Kingdom) (Project Partner)
- MARZA Animation Planet USA (Project Partner)
- SICSA (Project Partner)
- BAE Systems (United Kingdom) (Project Partner)
- National Institute of Informatics (Project Partner)
- Baker Hughes (United Kingdom) (Project Partner)