Summary
GHAIA will promote excellence through mobility to the world leader Universities in pure and applied mathematical research: Princeton University, Mit, Yale, Johns Hopkins, the Universities of California, of Texas, of Houston, of Pittsburgh, the Washington University (St. Louis), and the Worchester Polytechnical Institute, the Academia Sinica, the University of Buenos Aires have joined the consortium. European researchers will have the extraordinary opportunity to work in their exciting environment as well as receiving visiting researchers from south America. Moreover two selected enterprises have joined the consortium, allowing intersectorial mobility: Marposs and GMV, leaders in the strategic sectors of EU industry of precision equipments for automatic inspection, and of satellite navigation.
Emerging technological problems call for the development of a new integrated framework of geometric and harmonic analysis, which unify in an original picture problems strongly influenced by symmetries and coming from different mathematical and technological fields. The exploitation of groups and supergroups invariances is one of the central goals of harmonic analysis, and nonlocal or nonlinear PDE in group setting present new and unexpected properties. Achievements in these directions are strictly related to a good geometric analysis of the ambient space. With these instruments we will be able to contribute to some of the biggest challenges of this century: data analysis and models of brain functionality. The final goal will be to obtain new geometrical instruments of machine vision, to be applied to develop new products for measurement of industrial processes and for satellite guidance.
The international collaborations, through research and secondments, with the extraordinary selected third countries institutions of the consortium, will provide very high level transfer of knowledge and will have a strong impact on the research capability of the EU sending institutions.
Emerging technological problems call for the development of a new integrated framework of geometric and harmonic analysis, which unify in an original picture problems strongly influenced by symmetries and coming from different mathematical and technological fields. The exploitation of groups and supergroups invariances is one of the central goals of harmonic analysis, and nonlocal or nonlinear PDE in group setting present new and unexpected properties. Achievements in these directions are strictly related to a good geometric analysis of the ambient space. With these instruments we will be able to contribute to some of the biggest challenges of this century: data analysis and models of brain functionality. The final goal will be to obtain new geometrical instruments of machine vision, to be applied to develop new products for measurement of industrial processes and for satellite guidance.
The international collaborations, through research and secondments, with the extraordinary selected third countries institutions of the consortium, will provide very high level transfer of knowledge and will have a strong impact on the research capability of the EU sending institutions.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/777822 |
| Start date: | 01-11-2017 |
| End date: | 30-09-2023 |
| Total budget - Public funding: | 1 930 500,00 Euro - 1 782 000,00 Euro |
Cordis data
Original description
GHAIA will promote excellence through mobility to the world leader Universities in pure and applied mathematical research: Princeton University, Mit, Yale, Johns Hopkins, the Universities of California, of Texas, of Houston, of Pittsburgh, the Washington University (St. Louis), and the Worchester Polytechnical Institute, the Academia Sinica, the University of Buenos Aires have joined the consortium. European researchers will have the extraordinary opportunity to work in their exciting environment as well as receiving visiting researchers from south America. Moreover two selected enterprises have joined the consortium, allowing intersectorial mobility: Marposs and GMV, leaders in the strategic sectors of EU industry of precision equipments for automatic inspection, and of satellite navigation.Emerging technological problems call for the development of a new integrated framework of geometric and harmonic analysis, which unify in an original picture problems strongly influenced by symmetries and coming from different mathematical and technological fields. The exploitation of groups and supergroups invariances is one of the central goals of harmonic analysis, and nonlocal or nonlinear PDE in group setting present new and unexpected properties. Achievements in these directions are strictly related to a good geometric analysis of the ambient space. With these instruments we will be able to contribute to some of the biggest challenges of this century: data analysis and models of brain functionality. The final goal will be to obtain new geometrical instruments of machine vision, to be applied to develop new products for measurement of industrial processes and for satellite guidance.
The international collaborations, through research and secondments, with the extraordinary selected third countries institutions of the consortium, will provide very high level transfer of knowledge and will have a strong impact on the research capability of the EU sending institutions.
Status
CLOSEDCall topic
MSCA-RISE-2017Update Date
28-04-2024
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Organisations
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| ALMA MATER STUDIORUM-UNIVERSITA DI BOLOGNA (Coördinator)
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| ACADEMIA SINICA
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| BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIVERSITY
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| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
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| FLORIDA INSTITUTE OF TECHNOLOGY, INC
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| GMV AEROSPACE AND DEFENCE SA (GMV A&D)
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| JOHNS HOPKINS UNIVERSITY
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| MARPOSS SOCIETA PER AZIONI
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| MASSACHUSETTS INSTITUTE OF TECHNOLOGY
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| Queen's University at Kingston
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| THE BOARD OF TRUSTEES OF THE UNIVERSITY OF ILLINOIS
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| THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
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| THE UNIVERSITY OF MARYLAND FOUNDATIION INC
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| THE UNIVERSITY OF SYDNEY
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| THE UNIVERSITY OF TEXAS SYSTEM