The paper presents significant advancements in interactive systems for motor rehabilitation, highlighting a gesture-based system tailored for patients with spinal cord injuries (SCI). Collaborating closely with occupational therapists, the project focused on identifying specific interaction parameters essential for game-based rehabilitation. A key innovation was implementing a computational model that tracks real-time input performance, allowing for adjustable game difficulty. This approach not only enhances patient engagement but also ensures that rehabilitation is customized to each individual's capabilities, facilitating a more effective therapeutic experience.
The research focused on developing a gesture-based interactive system for motor rehabilitation, designed specifically with input from occupational therapists to enhance patient engagement.
By establishing crucial interaction parameters and a computational model for real-time performance estimation, the system aims to dynamically adapt game difficulty for improved patient outcomes.
#motor-rehabilitation #gesture-based-interaction #occupational-therapy #game-design #computational-models
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