Next frontier., Journal Year: 2024, Volume and Issue: 8(1), P. 159 - 159
Published: Nov. 25, 2024
Wearable robotic exoskeletons represent a significant advancement in assistive technology, offering enhanced mobility and improved quality of life for individuals with neuromuscular disorders. This research explores the integration robotics biomechanical engineering to develop exoskeleton systems tailored rehabilitation daily assistance. Key areas investigation include use sensor-driven actuators real-time movement adaptation, role artificial intelligence (AI) customizing therapy sessions, impact these devices on neuroplasticity during rehabilitation. By analyzing real-world applications conditions such as spinal cord injuries, muscular dystrophy, stroke recovery, study evaluates effectiveness restoring functional independence. Ethical considerations, including accessibility, cost, long-term usability, are also addressed. underscores transformative potential wearable exoskeletons, emphasizing their bridging gap between therapeutic With AI advanced sensors, hold promise reshaping paradigms, improving patient outcomes, enhancing overall impairments.
Language: Английский