Core Insights - The article highlights the innovative use of brain-computer interface (BCI) technology in rehabilitation, specifically through the BU100 upper limb rehabilitation robot, which allows patients to control their movements using their thoughts [1][3][5][6]. Group 1: Rehabilitation Technology - The BU100 system captures brain signals to convert movement intentions into precise commands, overcoming traditional rehabilitation limitations that rely on manual therapist assistance [3][5]. - The system has shown significant success in restoring movement for patients with severe injuries, such as shoulder dislocations and rotator cuff tears, by re-establishing the neural-motor connection [5][13]. - The technology enables real-time monitoring of movement force through torque sensors, ensuring safety during rehabilitation exercises [5][6]. Group 2: Clinical Applications and Developments - The hospital has established a comprehensive rehabilitation framework that includes training centers for orthopedic robots and BCI rehabilitation robots, facilitating the clinical application of these technologies [8][10]. - The rehabilitation process has been expanded to include various scenarios, allowing patients to practice daily activities, which enhances the effectiveness of recovery [10]. - Future developments include portable devices that enable patients to continue their rehabilitation at home, thus broadening the accessibility of advanced rehabilitation technologies [10][13]. Group 3: Industry Trends - The increasing prevalence of sports injuries due to the rise in fitness activities has created a demand for innovative rehabilitation solutions, highlighting the need for advanced technologies like BCI [13]. - The integration of AI systems in rehabilitation allows for personalized training programs based on real-time data analysis, redefining the role of rehabilitation professionals [10][13].