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Development of Biocooperative Control Strategies for Neuromotor Rehabilitation Robotic Platforms: A Real-Time Embedded Approach Enhanced Human-Robot InteractionDevelopment of Biocooperative Control Strategies for Neuromotor Rehabilitation Robotic Platforms: A Real-Time Embedded Approach Enhanced Human-Robot Interaction

Development of Biocooperative Control Strategies for Neuromotor Rehabilitation Robotic Platforms: A Real-Time Embedded Approach Enhanced Human-Robot Interaction in Vernon, BC

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Current price: $262.95
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Development of Biocooperative Control Strategies for Neuromotor Rehabilitation Robotic Platforms: A Real-Time Embedded Approach Enhanced Human-Robot Interaction

Coles

Development of Biocooperative Control Strategies for Neuromotor Rehabilitation Robotic Platforms: A Real-Time Embedded Approach Enhanced Human-Robot Interaction in Vernon, BC

By None

Current price: $262.95
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Size: Hardcover

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This book presents the development of a multimodal physiological signal acquisition system and cooperative control strategies for applications in upper-limb robotic rehabilitation.   First, it introduces a non-pattern recognition EMG-based platform for hand rehabilitation, demonstrating its strong performance in both gesture recognition accuracy and responsiveness. It also discusses the role of EMG-based visual feedback, showing how real-time visualization of muscle activation enhances user performance during training. In turn, it reports on the validation of a low-cost multimodal acquisition solution using two different real-time biocooperative control strategies. The results demonstrate that the developed low-cost wearable platform, which integrates multiple sensors, wireless communication, and a high-efficiency real-time microcontroller, is highly versatile and configurable, and shows a good signal quality. By addressing two main aspects that limit the adoption of biocooperative systems in clinical rehabilitation settings & hardware affordability and system reliability & this outstanding Ph.D. thesis paves the way to the implementation of real-time biocooperative controls for future applications in robotic rehabilitation.
This book presents the development of a multimodal physiological signal acquisition system and cooperative control strategies for applications in upper-limb robotic rehabilitation.   First, it introduces a non-pattern recognition EMG-based platform for hand rehabilitation, demonstrating its strong performance in both gesture recognition accuracy and responsiveness. It also discusses the role of EMG-based visual feedback, showing how real-time visualization of muscle activation enhances user performance during training. In turn, it reports on the validation of a low-cost multimodal acquisition solution using two different real-time biocooperative control strategies. The results demonstrate that the developed low-cost wearable platform, which integrates multiple sensors, wireless communication, and a high-efficiency real-time microcontroller, is highly versatile and configurable, and shows a good signal quality. By addressing two main aspects that limit the adoption of biocooperative systems in clinical rehabilitation settings & hardware affordability and system reliability & this outstanding Ph.D. thesis paves the way to the implementation of real-time biocooperative controls for future applications in robotic rehabilitation.

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