Summary
We propose to develop systems and control theory needed to understand and control large flexible structures and fluid structure interactions. The beneficiaries are a group of 15 academics from the fields of modelling, control theory, distributed parameter systems and fluid dynamics, aeroelasticity, swimming and marine engineering, working in either mathematics or engineering departments, with strong links between us. We are located at 10 universities in the UK, France, The Netherlands, Spain, Germany and Israel. In addition, we have four partner universities in Canada, China, USA and France and 11 prestigious industry partners, mostly from Europe. We believe that our backgrounds and skills are sufficiently close so that we can (and do) communicate with ease, but also sufficiently distinct so that we can cover many aspects of this field, and hence (as a consortium) offer outstanding training to young researchers. We believe that this area will have a great impact on the technology of the future, as well as on our understanding of nature, and we are eager to train new
scientists and engineers in this broad field. We believe that Science and Technology in Europe will greatly benefit from this research, and from the education and and knowledge that we will impart to a new generation of researchers. Our research plans are organized into five scientific work packages, which cover mathematical systems theory, modelling and model reduction, relevant aspects of control theory, and applications. The applications that we plan to investigate concern a wide range of flexible structures in interaction with fluids: wind turbines, aircraft wings, precision machine tools, vessels linked by cables as encountered in marine salvage operations and microscopic electromechanical devices. These apparently unrelated systems face similar challenges and can be analysed and controlled in a unified framework.
scientists and engineers in this broad field. We believe that Science and Technology in Europe will greatly benefit from this research, and from the education and and knowledge that we will impart to a new generation of researchers. Our research plans are organized into five scientific work packages, which cover mathematical systems theory, modelling and model reduction, relevant aspects of control theory, and applications. The applications that we plan to investigate concern a wide range of flexible structures in interaction with fluids: wind turbines, aircraft wings, precision machine tools, vessels linked by cables as encountered in marine salvage operations and microscopic electromechanical devices. These apparently unrelated systems face similar challenges and can be analysed and controlled in a unified framework.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/765579 |
| Start date: | 01-10-2017 |
| End date: | 31-03-2022 |
| Total budget - Public funding: | 3 932 721,72 Euro - 3 932 721,00 Euro |
Cordis data
Original description
We propose to develop systems and control theory needed to understand and control large flexible structures and fluid structure interactions. The beneficiaries are a group of 15 academics from the fields of modelling, control theory, distributed parameter systems and fluid dynamics, aeroelasticity, swimming and marine engineering, working in either mathematics or engineering departments, with strong links between us. We are located at 10 universities in the UK, France, The Netherlands, Spain, Germany and Israel. In addition, we have four partner universities in Canada, China, USA and France and 11 prestigious industry partners, mostly from Europe. We believe that our backgrounds and skills are sufficiently close so that we can (and do) communicate with ease, but also sufficiently distinct so that we can cover many aspects of this field, and hence (as a consortium) offer outstanding training to young researchers. We believe that this area will have a great impact on the technology of the future, as well as on our understanding of nature, and we are eager to train newscientists and engineers in this broad field. We believe that Science and Technology in Europe will greatly benefit from this research, and from the education and and knowledge that we will impart to a new generation of researchers. Our research plans are organized into five scientific work packages, which cover mathematical systems theory, modelling and model reduction, relevant aspects of control theory, and applications. The applications that we plan to investigate concern a wide range of flexible structures in interaction with fluids: wind turbines, aircraft wings, precision machine tools, vessels linked by cables as encountered in marine salvage operations and microscopic electromechanical devices. These apparently unrelated systems face similar challenges and can be analysed and controlled in a unified framework.
Status
CLOSEDCall topic
MSCA-ITN-2017Update Date
28-04-2024
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Geographical location(s)
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Organisations
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| TEL AVIV UNIVERSITY (Coördinator)
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| ASML
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| Airbus Operations GmbH
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| BAE SYSTEMS SURFACE SHIPS LIMITED
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| BERGISCHE UNIVERSITAET WUPPERTAL (BUW)
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| Chinese Academy of Sciences
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| DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EV
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| FRIEDRICH-ALEXANDER-UNIVERSITAT ERLANGEN NURNBERG
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| FTI Consulting
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| FUNDACION CENER
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| ILLINOIS INSTITUTE OF TECHNOLOGY
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| IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE
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| OFFSHORE RENEWABLE ENERGY CATAPULT
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| ONERA
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| RAFAEL ADVANCED DEFENCE SYSTEMS LTD