Development of a bioonic orthoimage prosthesis “Zeus” with modular structures, with a high strength of impact and an intuitive movement control, based on the processing of bioignites (Q78096): Difference between revisions
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(Created claim: summary (P836): Reference_reference_programme_aids:SA.41471 (2015/X) _public:art:25 Commission Regulation No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The aim of the project is to develop a new product in the form of a bioonic “Zeus”.The project will be carried out by Aethher Biomedical Sp. z o.o., registered in October...) |
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Reference_reference_programme_aids:SA.41471 (2015/X) _public:art:25 Commission Regulation No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The aim of the project is to develop a new product in the form of a bioonic “Zeus”.The project will be carried out by Aethher Biomedical Sp. z o.o., registered in October 2018 by an interdisciplinary team composed of specialists in the fields of medicine, robotics, electronics, mechanics and the commercialisation of medical devices (selling, CE certification, building partnerships in the distribution of the ‘Zeus prosthesis’).The main objectives of the project are to:1.The design of a prosthesis on lightweight materials, i.e. from carbon fibre and polyamide PA12 (Multijet Fusion technology), will help to address the importance of one of the main causes of the high rate of rejection of a prosthesis on amputees.2.Design of an impact resistant prosthesis.Because of the fact that the prostheses require continuous repair and calibration due to repeated mechanical damage.3.Implement the control system for the BLDC engine control system that would allow us to use smaller engines, reducing the weight and the size of the hand.4.The development of a modular system which ensures that the size of the prosthesis can be adjusted without changing the core and core structure leading to a reduction in production costs.5.Design the EMG-sensor structure, which will have a lower profile, a press-lock, digital signal processing, traffic disruption and wireless reinforcement.Thanks to signal digitalisation near the electrode lines, this system design also reduces the potential of external noise sources to damage EMG signals.The project will result in a bio-based protein prosthesis on the market.As a result of the application (English) | |||
| Property / summary: Reference_reference_programme_aids:SA.41471 (2015/X) _public:art:25 Commission Regulation No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The aim of the project is to develop a new product in the form of a bioonic “Zeus”.The project will be carried out by Aethher Biomedical Sp. z o.o., registered in October 2018 by an interdisciplinary team composed of specialists in the fields of medicine, robotics, electronics, mechanics and the commercialisation of medical devices (selling, CE certification, building partnerships in the distribution of the ‘Zeus prosthesis’).The main objectives of the project are to:1.The design of a prosthesis on lightweight materials, i.e. from carbon fibre and polyamide PA12 (Multijet Fusion technology), will help to address the importance of one of the main causes of the high rate of rejection of a prosthesis on amputees.2.Design of an impact resistant prosthesis.Because of the fact that the prostheses require continuous repair and calibration due to repeated mechanical damage.3.Implement the control system for the BLDC engine control system that would allow us to use smaller engines, reducing the weight and the size of the hand.4.The development of a modular system which ensures that the size of the prosthesis can be adjusted without changing the core and core structure leading to a reduction in production costs.5.Design the EMG-sensor structure, which will have a lower profile, a press-lock, digital signal processing, traffic disruption and wireless reinforcement.Thanks to signal digitalisation near the electrode lines, this system design also reduces the potential of external noise sources to damage EMG signals.The project will result in a bio-based protein prosthesis on the market.As a result of the application (English) / rank | |||
Normal rank | |||
Revision as of 08:59, 4 March 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of a bioonic orthoimage prosthesis “Zeus” with modular structures, with a high strength of impact and an intuitive movement control, based on the processing of bioignites |
Project in Poland financed by DG Regio |
Statements
2,278,125.0 zloty
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3,749,375.0 zloty
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60.76 percent
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1 November 2019
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30 April 2021
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AETHER BIOMEDICAL SPÓŁKA Z OGRANICZONA ODPOWIEDZIALNOSCIA
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52°24'2.2"N, 16°55'11.3"E
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Numer_referencyjny_programu_pomocowego: SA.41471(2015/X) Przeznaczenie_pomocy_publicznej: art: 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014). Celem projektu jest opracowanie nowego produktu w postaci bionicznej protezy przedramienia „Zeus”. Projekt będzie realizowany przez spółkę Aether Biomedical Sp. z o.o. zarejestrowaną w październiku 2018 r przez interdyscyplinarny zespół, złożony ze specjalistów w obszarze medycyny, robotyki, elektroniki, mechaniki oraz komercjalizacji urządzeń medycznych (sprzedaż, certyfikacja CE, budowanie partnerstw w zakresie dystrybucji protezy Zeus). Główne założenia projektu to: 1. Konstrukcja protezy z lekkich materiałów, tj. z włókna węglowego i poliamidu PA12 (technologia Multijet Fusion), co przyczyni się do rozwiązania problemu wagi, będącej jedną z głównych przyczyn wysokiego wskaźnika odrzucenia protezy u osób po amputacji. 2. Konstrukcja protezy odpornej na uderzenia. Z racji tego, iż protezy wymagają ciągłych napraw i kalibracji z powodu powtarzających się uszkodzeń mechanicznych. 3. Zaimplementowanie systemu sterowania silnikami BLDC, które pozwoliłoby nam stosować mniejsze silniki, zmniejszając wagę i rozmiar dłoni. 4. Opracowanie systemu modułowego, który zapewni możliwość dostosowania rozmiaru protezy bez zmiany elementów rdzenia i struktury rdzenia prowadzącym do zmniejszenia kosztów produkcji. 5. Opracowanie konstrukcji czujnika EMG, który charakteryzować się będzie niższym profilem, konstrukcją zatrzaskową, cyfrowym przetwarzaniem sygnału, usuwaniem zakłóceń ruchu i bezprzewodową regulacją wzmocnienia. Dzięki cyfryzacji sygnału w pobliżu miejsca styków elektrody, ta konstrukcja systemu zmniejszy również potencjał zewnętrznych źródeł szumu do uszkodzenia sygnałów EMG. Efektem projektu będzie bioniczna proteza o niespotykanych na rynku właściwościach. Dzięki zastosow (Polish)
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Reference_reference_programme_aids:SA.41471 (2015/X) _public:art:25 Commission Regulation No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The aim of the project is to develop a new product in the form of a bioonic “Zeus”.The project will be carried out by Aethher Biomedical Sp. z o.o., registered in October 2018 by an interdisciplinary team composed of specialists in the fields of medicine, robotics, electronics, mechanics and the commercialisation of medical devices (selling, CE certification, building partnerships in the distribution of the ‘Zeus prosthesis’).The main objectives of the project are to:1.The design of a prosthesis on lightweight materials, i.e. from carbon fibre and polyamide PA12 (Multijet Fusion technology), will help to address the importance of one of the main causes of the high rate of rejection of a prosthesis on amputees.2.Design of an impact resistant prosthesis.Because of the fact that the prostheses require continuous repair and calibration due to repeated mechanical damage.3.Implement the control system for the BLDC engine control system that would allow us to use smaller engines, reducing the weight and the size of the hand.4.The development of a modular system which ensures that the size of the prosthesis can be adjusted without changing the core and core structure leading to a reduction in production costs.5.Design the EMG-sensor structure, which will have a lower profile, a press-lock, digital signal processing, traffic disruption and wireless reinforcement.Thanks to signal digitalisation near the electrode lines, this system design also reduces the potential of external noise sources to damage EMG signals.The project will result in a bio-based protein prosthesis on the market.As a result of the application (English)
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Identifiers
POIR.01.01.01-00-0544/19
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