Description du projet
Microsystems and Smart Miniaturised Systems
Best-Reliable Ambient Intelligent Nanosensor Systems – e-BRAINS – represent a giant leap for outstanding future applications in the area of ambient living with the ultimate need for integration of heterogeneous technologies, high-performance nanosensor devices, miniaturization, smart wireless communication and best-reliability.e-BRAINS with minimum volume and weight as well as reduced power consumption can be utilized in ambient living systems. Successful market entry of such innovative ambient intelligence products will be determined by the performance improvement achieved and the cost advantage in relation to the total system cost.The basic requirement for robustness and reliability of the heterogeneous integration technologies and the nanosensor layers is in the focus of all e-BRAINS developments.The designated nanosensor systems represent a very promising innovative approach with the potential to enable high-performance and precise functions in new products. The application of nanotechnology will allow large improvements in functionality and will open a wide range of applications for European companies.Future e-BRAINS applications require significantly higher integration densities. Performance, multi-functionality and reliability of such complex heterogeneous systems will be limited mainly by the wiring between the subsystems. Suitable 3D integration technologies create a basis to overcome these drawbacks with the benefit of enabling minimal interconnection lengths. In addition to enabling high integration densities, 3D integration is a very promising cost-effective approach for the realization of heterogeneous systems.Besides the heterogeneous system integration the main criteria of e-BRAINS is the need for miniaturized energy storage/delivery systems, low power consumption, smart communication and methodology for reliability and robustness.e-BRAINS benefits from the established European 3D technology platform as major result of the IP e-CUBES.
Champ scientifique
Appel à propositions
FP7-ICT-2009-5
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Régime de financement
CP - Collaborative project (generic)Coordinateur
85579 Neubiberg
Allemagne
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Participants (21)
4040 LINZ
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9500 Villach
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8010 Graz
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4040 LINZ
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3001 Leuven
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1015 Lausanne
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82166 Graefelfing
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04179 LEIPZIG
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09111 Chemnitz
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80686 Munchen
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80333 Munchen
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78530 Buc
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37000 Tours
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92140 Clamart
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75015 PARIS 15
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T12 YN60 Cork
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3189 Horten
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7034 Trondheim
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3189 HORTEN
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02668 WARSZAWA
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CF3 0LW Cardiff , St Mellons
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