Summary
Today, the main research trends in decentralized personal health monitoring (PDHM) are on monitoring at longer periods, reducing motion artefacts, and multimodal monitoring. PERSIMMON will push the state-of-the-art by providing personalized and biodegradable multimodal smart sensor patches based on low-cost additive manufacturing. The innovations introduced by PERSIMMON rely on new sensor materials, AI, and digital surface mount technology (SMT). The developed patches will be used in multinodal networks with multimodal nodes on the skin for advanced DPHM, with improved sustainability and circularity. Cloud-based AI sensor fusion will be used for blood pressure and body temperature monitoring, and edge-AI for reducing motion artefacts, selecting good signal conditions, and reduce power consumption at the smart patch. In addition, PERSIMMON will develop new sensor materials for biodegradability, sensor electrodes, and nano-MOS embedded in semi-permeable materials (that will allow gas sensors on the skin with both extended lifetime in multiuse modules and at extreme low cost in disposables). Within 48 months and with the involvement of 13 partners from six countries, PERSIMMON will demonstrate remote DPHM in sport use cases of ski mountaineering and swimming, and in continuous remote monitoring of chronically ill patients in their everyday lives. A production line for additive manufacturing of soft and compliant printed wiring boards based on digital SMT manufacturing, and a 5G gateway for body worn IoT will be demonstrated and made as business cases. The used water-soluble biopolymers and liquid metal interconnects and contacts remove microplastics waste and allow for reuse of clean components and recycled metal without high-temperature or toxic processing. Life cycle analysis, societal uptake, acceptance, and compliance to a circular economy are indeed at the methodological basis of the design and development of new devices and of the appliance tests in PERSIMMON.
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| Web resources: | https://cordis.europa.eu/project/id/101129713 |
| Start date: | 01-09-2024 |
| End date: | 31-08-2028 |
| Total budget - Public funding: | - 7 768 776,00 Euro |
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Original description
Today, the main research trends in decentralized personal health monitoring (PDHM) are on monitoring at longer periods, reducing motion artefacts, and multimodal monitoring. PERSIMMON will push the state-of-the-art by providing personalized and biodegradable multimodal smart sensor patches based on low-cost additive manufacturing. The innovations introduced by PERSIMMON rely on new sensor materials, AI, and digital surface mount technology (SMT). The developed patches will be used in multinodal networks with multimodal nodes on the skin for advanced DPHM, with improved sustainability and circularity. Cloud-based AI sensor fusion will be used for blood pressure and body temperature monitoring, and edge-AI for reducing motion artefacts, selecting good signal conditions, and reduce power consumption at the smart patch. In addition, PERSIMMON will develop new sensor materials for biodegradability, sensor electrodes, and nano-MOS embedded in semi-permeable materials (that will allow gas sensors on the skin with both extended lifetime in multiuse modules and at extreme low cost in disposables). Within 48 months and with the involvement of 13 partners from six countries, PERSIMMON will demonstrate remote DPHM in sport use cases of ski mountaineering and swimming, and in continuous remote monitoring of chronically ill patients in their everyday lives. A production line for additive manufacturing of soft and compliant printed wiring boards based on digital SMT manufacturing, and a 5G gateway for body worn IoT will be demonstrated and made as business cases. The used water-soluble biopolymers and liquid metal interconnects and contacts remove microplastics waste and allow for reuse of clean components and recycled metal without high-temperature or toxic processing. Life cycle analysis, societal uptake, acceptance, and compliance to a circular economy are indeed at the methodological basis of the design and development of new devices and of the appliance tests in PERSIMMON.Status
SIGNEDCall topic
HORIZON-CL4-2023-RESILIENCE-01-33Update Date
19-09-2024
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Organisations
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| UPPSALA UNIVERSITET (Coördinator)
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| BENELI AB
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| DF ELETTRONICA - S.R.L.
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| EVALAN BV (EVN)
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| FONDAZIONE LINKS - LEADING INNOVATION & KNOWLEDGE FOR SOCIETY
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| MYCRONIC AB
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| MYSPHERA SL
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| Politecnico di Torino
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| STMICROELECTRONICS SRL
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| TNO - Nederlandse Organisatie voor Toegepast Natuurwetenschappelijk Onderzoek
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| UNIVERSITAET LINZ
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| University of Ljubljana, Faculty of Mechanical engineering
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| WARRANT GROUP S.R.L.