In a world where over a billion people face various forms of disability, the quest for innovative solutions in the field of neuro-rehabilitation becomes imperative. In this context, it gives us great pleasure to announce our involvement in the AI-REHAB project, a collaborative effort promising to revolutionize the way we approach mobility rehabilitation.
This exhilarating project is undertaken in collaboration with two renowned institutions: the University of Deusto and the Miranda Foundation. With the support of business R&D assistance programs such as HAZITEK, we are propelling research and development of groundbreaking solutions in the field of robotic neuro-rehabilitation. Furthermore, it is important to highlight that this initiative is co-funded by the Basque Government and the European Union through the Regional Development Fund 2021-2027 (FEDER), demonstrating a joint commitment to promote scientific and technological excellence in our region. This multidisciplinary collaboration and governmental endorsement enable us to progress towards our goal of leading change in the realm of mobility and rehabilitation.
AI-REHAB aims primarily to enhance therapy and procedures for robotic neuro-rehabilitation of mobility, integrating artificial intelligence to provide precise diagnostics and tailor treatments to each patient. This translates into a dynamic approach to rehabilitation, tailored to the individual needs of each person. Additionally, this innovative project explores the potential of robotic systems to prevent frailty, an increasingly pressing issue in our society.
The aging population and the rise of chronic illnesses are creating a growing demand for health and rehabilitation services. In this context, robotic neuro-rehabilitation emerges as a promising solution. While robotic rehabilitation systems have proven effective in improving mobility and functionality in patients with motor disorders, the lack of a scientific approach to customize therapy has hindered its widespread adoption.
This is where artificial intelligence plays a crucial role. Thanks to recent advancements in AI technology, we can unify criteria, determine the precise frequency and intensity of treatment for each patient, and even optimize process parameters in real-time. This means we can tailor robotic systems to the individual needs of each patient, thereby enhancing the effectiveness of treatments through personalization and continuous feedback.
However, AI-REHAB goes beyond individualized therapy. The combination of artificial intelligence with robotic systems also offers the potential to detect frailty early, an increasingly relevant public health issue. By applying AI algorithms to precise measurements of motor performance provided by robotic systems, we can identify early signs of frailty and offer preventive interventions in a timely manner.
Ultimately, AI-REHAB represents an opportunity to generate new knowledge and improve existing technology in the field of robotic neuro-rehabilitation. We are committed to leading this project and contributing to the advancement of science and technology for the benefit of people with disabilities and motor frailty.
At Gogoa Mobility Robots, we firmly believe in the transformative power of technology to enhance people's quality of life. With AI-REHAB, we are taking a significant step towards a future where mobility is an accessible reality for all.
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