Summary
EU-TRAINS aims to reinforce the supply chain on sensors for biomechanics and cardiovascular system real-time monitoring targeting applications in the fields of fitness and healthcare. It leverages from the strength of EU digital microsystem and design to support a 100% made-in-Europe supply chain of solutions which encompass smart-textile integration as well as advanced AI-based edge-cloud data processing.
In details the following outcomes are foreseen:
- Textile integrated electronic systems for real-time monitoring of heart, respiratory and movement parameters on-the-air and in-water through an interdisciplinary approach;
- Semiconductor technologies which allow the re-use of micro-nano systems both in the sports and in the healthcare sectors;
- Miniaturized devices allowing the capturing of bio-chemical parameters able to withstand harsh ambient conditions such as salt fogs, chlorine, detergents, high and low temperatures, etc.
The following key activities are targeted:
- Development, prototyping and demonstration of versatile sensors with edge AI features for improved precision and reliability, that can also be integrated in textiles as well as in smart wearable wrist-watches and in sport equipment and gears targeting also underwater applications;
- Cloud-edge Artificial Intelligence combined approaches for reliable diagnosis of body parameters. This will comprise sensor’s self-learning, remote update, multi-sensing approaches based on sensor arrays;
- Novel materials that support electronics printing in textiles with stretchability and self-healing capabilities.
Societal benefits are foreseen in the transition to a healthier lifestyle by promoting regular physical activity through affordable tools and services for a large audience, including people with disabilities. Moreover, this will impact the smart/remote-healthcare sector which will benefit of the availability of low-cost microfabricated solutions for intelligent, versatile, connected body sensors.
In details the following outcomes are foreseen:
- Textile integrated electronic systems for real-time monitoring of heart, respiratory and movement parameters on-the-air and in-water through an interdisciplinary approach;
- Semiconductor technologies which allow the re-use of micro-nano systems both in the sports and in the healthcare sectors;
- Miniaturized devices allowing the capturing of bio-chemical parameters able to withstand harsh ambient conditions such as salt fogs, chlorine, detergents, high and low temperatures, etc.
The following key activities are targeted:
- Development, prototyping and demonstration of versatile sensors with edge AI features for improved precision and reliability, that can also be integrated in textiles as well as in smart wearable wrist-watches and in sport equipment and gears targeting also underwater applications;
- Cloud-edge Artificial Intelligence combined approaches for reliable diagnosis of body parameters. This will comprise sensor’s self-learning, remote update, multi-sensing approaches based on sensor arrays;
- Novel materials that support electronics printing in textiles with stretchability and self-healing capabilities.
Societal benefits are foreseen in the transition to a healthier lifestyle by promoting regular physical activity through affordable tools and services for a large audience, including people with disabilities. Moreover, this will impact the smart/remote-healthcare sector which will benefit of the availability of low-cost microfabricated solutions for intelligent, versatile, connected body sensors.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101130495 |
| Start date: | 01-06-2024 |
| End date: | 31-05-2027 |
| Total budget - Public funding: | - 7 897 415,00 Euro |
Cordis data
Original description
EU-TRAINS aims to reinforce the supply chain on sensors for biomechanics and cardiovascular system real-time monitoring targeting applications in the fields of fitness and healthcare. It leverages from the strength of EU digital microsystem and design to support a 100% made-in-Europe supply chain of solutions which encompass smart-textile integration as well as advanced AI-based edge-cloud data processing.In details the following outcomes are foreseen:
- Textile integrated electronic systems for real-time monitoring of heart, respiratory and movement parameters on-the-air and in-water through an interdisciplinary approach;
- Semiconductor technologies which allow the re-use of micro-nano systems both in the sports and in the healthcare sectors;
- Miniaturized devices allowing the capturing of bio-chemical parameters able to withstand harsh ambient conditions such as salt fogs, chlorine, detergents, high and low temperatures, etc.
The following key activities are targeted:
- Development, prototyping and demonstration of versatile sensors with edge AI features for improved precision and reliability, that can also be integrated in textiles as well as in smart wearable wrist-watches and in sport equipment and gears targeting also underwater applications;
- Cloud-edge Artificial Intelligence combined approaches for reliable diagnosis of body parameters. This will comprise sensor’s self-learning, remote update, multi-sensing approaches based on sensor arrays;
- Novel materials that support electronics printing in textiles with stretchability and self-healing capabilities.
Societal benefits are foreseen in the transition to a healthier lifestyle by promoting regular physical activity through affordable tools and services for a large audience, including people with disabilities. Moreover, this will impact the smart/remote-healthcare sector which will benefit of the availability of low-cost microfabricated solutions for intelligent, versatile, connected body sensors.
Status
SIGNEDCall topic
HORIZON-CL4-2023-RESILIENCE-01-33Update Date
19-09-2024
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Organisations
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| SILICON AUSTRIA LABS GMBH (SAL) (Coördinator)
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| Consortium Ubiquitous Technologies S.c.a.r.l.
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| DAC Spolka Akcyjna (12A BS)
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| DEUTSCHE SPORTHOCHSCHULE KOLN
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| Eindhoven University of Technology
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| KUBIOS OY
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| LUDWIG BOLTZMANN GESELLSCHAFT OSTERREICHISCHE VEREINIGUNG ZUR FORDERUNG DER WISSENSCHAFTLICHEN FORSC...
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| MEDTRONIC IBERICA SA
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| NATIONAL TECHNICAL UNIVERSITY OF UKRAINE IGOR SIKORSKY KYIV POLYTECHNIC INSTITUTE
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| SANSIRRO GMBH
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| SIEC BADAWCZA LUKASIEWICZ - INSTYTUT MIKROELEKTRONIKI I FOTONIKI
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| STICHTING IMEC NEDERLAND (IMEC)
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| STMICROELECTRONICS (ALPS) SAS (STMicro)
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| STMICROELECTRONICS SRL
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| TECHNISCHE UNIVERSITAET CHEMNITZ