Bridging the Gap between Mathematics, ICT and Engineering Research at Sheffield
Lead Research Organisation:
University of Sheffield
Department Name: Electronic and Electrical Engineering
Abstract
This proposal is concerned with further enhancing collaboration between researchers engaged in Engineering, Mathematics and Information and Communications Technologies. It particularly addresses those areas of research which sit astride the boundaries between these disciplines and those in which modelling and analysis have developed in a rather insular fashion. The proposed research activities are focussed on four themes: Uncertainty, Data and performance analysis, Design validation and Multi-physics and multi-scale modelling. These themes have been selected as being those in which there are identified logjams and deficiencies in current research practice for which greater collaborations between disciplines could have a major impact. They also map onto to established discipline strengths of The University of Sheffield. In order to initiate and sustain research collaboration both within these four themes and between themes, a number of different mechanisms will be employed, each of which is targeted at addressing recognised barriers to collaborative research. These include short-term secondments to other Departments, pump-priming awards, flagship theme projects, themed seminars and retreats, mechanisms for engaging and furthering collaboration with industry, conference grants for non-specialists and visiting scholars.
Organisations
Publications
Triantafyllopoulos K
(2009)
Bayesian dynamic modelling and tracking control for flexible manoeuvring systems
Zimmerman W
(2009)
Optimal modelling and experimentation for the improved sustainability of microfluidic chemical technology design
in Chemical Engineering Research and Design
Humphries S
(2009)
Filter feeders and plankton increase particle encounter rates through flow regime control.
in Proceedings of the National Academy of Sciences of the United States of America
Hemaka Bandalusena H
(2009)
Microfluidic rheometry of a polymer solution by micron resolution particle image velocimetry: a model validation study
in Measurement Science and Technology
Tesar V
(2010)
Bistable diverter valve in microfluidics
in Experiments in Fluids
Craven T
(2010)
Pressure sensor positioning in an electrokinetic microrheometer device: simulations of shear-thinning liquid flows
in Microfluidics and Nanofluidics
Bandalusena H
(2010)
Creeping flow analysis of an integrated microfluidic device for rheometry
in Journal of Non-Newtonian Fluid Mechanics
Bandulasena H. C. H.
(2010)
RHEOMETRY OF NON-NEWTONIAN POLYMER SOLUTION USING MICROCHANNEL PRESSURE DRIVEN FLOW
in APPLIED RHEOLOGY
Bandulasena H
(2011)
An inverse method for rheometry of power-law fluids
in Measurement Science and Technology
Fricker T
(2011)
Probabilistic uncertainty analysis of an FRF of a structure using a Gaussian process emulator
in Mechanical Systems and Signal Processing
Bashir S
(2011)
Simulations of microfluidic droplet formation using the two-phase level set method
in Chemical Engineering Science
RodrÃguez-Ferran A
(2011)
A general framework for softening regularisation based on gradient elasticity
in International Journal of Solids and Structures
Bennett T
(2012)
Damage regularisation with inertia gradients
in European Journal of Mechanics - A/Solids
Bashir M
(2014)
Microplasma copolymerization of amine and Si containing precursors
in Thin Solid Films
Bashir M
(2014)
Characterization of atmospheric pressure microplasma produced from argon and a mixture of argon-ethylenediamine
in Physics Letters A
Bashir, Shazia
(2015)
Hydrophilic surface modification of PDMS microchannel for O/W and W/O/W emulsions
Bashir S
(2015)
Hydrophilic Surface Modification of PDMS Microchannel for O/W and W/O/W Emulsions
in Micromachines