SubsidieMeestersAXILES Bionics: Solaris Project
Axiles Bionics develops advanced AI-driven bionic prostheses with a "Prosthetics-as-a-Service" model to enhance mobility and well-being for lower-limb amputees.
Projectdetails
Introduction
Lower-limb amputees face physical and psychological pains that marketed prostheses are unable to relieve. Axiles Bionics aims to fill the clear worldwide market gap with next-generation bionic prostheses combining advanced robotics and AI, ensuring complete adaptation to the amputee’s lifestyle.
Technology Overview
By virtue of its features, our technology creates a revolutionary cost-effective market concept “Prosthetics-as-a-Service” (PraaS) with our Solaris design.
PraaS Model Features
Our PraaS model ensures:
- Component-to-component maintenance
- Daily data gathering and monitoring system
- Predictive maintenance
- Continuous upgrades
Proven Effectiveness
The fitness to the job-to-be-done of our solution has already been proven by in-house studies, where more than 85% of tested subjects expressed their astonishment and defined it as a must-have.
Study Results
Data from these studies show:
- Significant increase in natural gait
- Less peripheral pains (knees/hips/back)
- Restoration of physical and mental balance
This is clear proof of the superior added value of our solution.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.500.000 |
| Totale projectbegroting | € 3.798.295 |
Tijdlijn
| Startdatum | 1-7-2023 |
| Einddatum | 30-6-2025 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- AXILES BIONICSpenvoerder
Land(en)
Geen landeninformatie beschikbaar
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Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Meegroeiprothese: one size fits allGyromotics en MTPP ontwikkelen een verstelbare kinderonderbeenprothese van carboncomposieten die meegroeit met kinderen, om hun bewegingsvrijheid en sociale interactie te verbeteren. | Mkb-innovati... | € 178.598 | 2020 | Details |
Against prostheses abandonment: immersive and low-cost platform for the rehabilitation of upper-limb amputeesBRAINmade aims to reduce upper-limb prosthesis abandonment by integrating EMG-controlled VR training to enhance motor skills and acceptance, transforming rehabilitation practices for amputees. | ERC Proof of... | € 150.000 | 2024 | Details |
De gepersonaliseerde sportvoetDit project ontwikkelt betaalbare, multifunctionele sportprotheses voor geamputeerden, zodat zij kunnen deelnemen aan diverse sporten en hun fysieke en mentale gezondheid verbeteren. | Mkb-innovati... | € 193.095 | 2019 | Details |
BRAIN-SPINE INTERFACES TO REVERSE UPPER- AND LOWER-LIMB PARALYSISDeveloping fully-implantable brain-spine interfaces to restore movement in individuals with chronic paralysis through advanced neurosensors and neurostimulation systems. | EIC Transition | € 2.490.802 | 2022 | Details |
Auto-adaptive Neuromorphic Brain Machine Interface: toward fully embedded neuroprostheticsThe NEMO BMI project aims to develop an assistance-free, user-friendly neuroprosthetic system that utilizes brain signals for limb control, enhancing usability and portability through innovative technologies. | EIC Pathfinder | € 3.784.703 | 2022 | Details |
Meegroeiprothese: one size fits all
Gyromotics en MTPP ontwikkelen een verstelbare kinderonderbeenprothese van carboncomposieten die meegroeit met kinderen, om hun bewegingsvrijheid en sociale interactie te verbeteren.
Against prostheses abandonment: immersive and low-cost platform for the rehabilitation of upper-limb amputees
BRAINmade aims to reduce upper-limb prosthesis abandonment by integrating EMG-controlled VR training to enhance motor skills and acceptance, transforming rehabilitation practices for amputees.
De gepersonaliseerde sportvoet
Dit project ontwikkelt betaalbare, multifunctionele sportprotheses voor geamputeerden, zodat zij kunnen deelnemen aan diverse sporten en hun fysieke en mentale gezondheid verbeteren.
BRAIN-SPINE INTERFACES TO REVERSE UPPER- AND LOWER-LIMB PARALYSIS
Developing fully-implantable brain-spine interfaces to restore movement in individuals with chronic paralysis through advanced neurosensors and neurostimulation systems.
Auto-adaptive Neuromorphic Brain Machine Interface: toward fully embedded neuroprosthetics
The NEMO BMI project aims to develop an assistance-free, user-friendly neuroprosthetic system that utilizes brain signals for limb control, enhancing usability and portability through innovative technologies.