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Bio-inspired motor control strategie...

Phan, Gia Hoang.

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Bio-inspired motor control strategies for redundant and flexible manipulator with application to tooling tasks

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Bio-inspired motor control strategies for redundant and flexible manipulator with application to tooling tasks/ by Gia Hoang Phan, Vijender Kumar Solanki, Nguyen Ho Quang.
作者:	Phan, Gia Hoang.
其他作者:	Solanki, Vijender Kumar.
出版者:	Singapore :Springer Singapore : : 2022.,
面頁冊數:	x, 91 p. :ill. (some col.), digital ;24 cm.
內容註:	Chapter 1. Bio - inspired Motor Control Strategies for Redundant Manipulators -- Chapter 2. Bio - inspired Motor Control Strategies: Cable - driven Manipulator using Agonist - Antagonis actuation -- Chapter 3. Design and Control of 2D-Plotter Planar Parallel Robot -- Chapter 4. Combining 3D motion tracker with IMU sensor signals of muscles to discover macro- and micro-vibration for Stroke Rehabilitation -- Chapter 5. A Pneumatic Actuator-Powered Robotic Glove for Hand Rehabilitation -- Chapter 6. Artificial Intelligence in Rehabilitation Evaluation Based Robotic Exoskeletons: A Review.
Contained By:	Springer Nature eBook
標題:	Robotics in medicine. -
電子資源:	https://doi.org/10.1007/978-981-16-9551-3
ISBN:	9789811695513

Bio-inspired motor control strategies for redundant and flexible manipulator with application to tooling tasks
Phan, Gia Hoang.

Bio-inspired motor control strategies for redundant and flexible manipulator with application to tooling tasks[electronic resource] /by Gia Hoang Phan, Vijender Kumar Solanki, Nguyen Ho Quang. - Singapore :Springer Singapore :2022. - x, 91 p. :ill. (some col.), digital ;24 cm. - SpringerBriefs in applied sciences and technology. Computational intelligence. - SpringerBriefs in applied sciences and technology.Computational intelligence..

Chapter 1. Bio - inspired Motor Control Strategies for Redundant Manipulators -- Chapter 2. Bio - inspired Motor Control Strategies: Cable - driven Manipulator using Agonist - Antagonis actuation -- Chapter 3. Design and Control of 2D-Plotter Planar Parallel Robot -- Chapter 4. Combining 3D motion tracker with IMU sensor signals of muscles to discover macro- and micro-vibration for Stroke Rehabilitation -- Chapter 5. A Pneumatic Actuator-Powered Robotic Glove for Hand Rehabilitation -- Chapter 6. Artificial Intelligence in Rehabilitation Evaluation Based Robotic Exoskeletons: A Review.

This book presents a multi-disciplinary view of all aspects of rehabilitation robotics and non-invasive surgery, ideal for anyone new to the field. It includes perspectives from both engineers and clinicians. For skilled researchers and clinicians, it also summarizes current robot technologies and their application to various pathologies. The book will help the readers to develop the know-how and expertise necessary to guide those seeking a comprehensive understanding of this topic through their use of several commercial devices for robotic rehabilitation. The book targets the implementation of efficient robot strategies to facilitate the re-acquisition of motor skills. This technology incorporates the outcomes of behavioral studies on motor learning and its neural correlates into the design, implementation, and validation of robot agents that behave as optimal trainers, efficiently exploiting the structure and plasticity of the human sensorimotor systems.

ISBN: 9789811695513

Standard No.: 10.1007/978-981-16-9551-3doiSubjects--Topical Terms:

894868
Robotics in medicine.

LC Class. No.: R857.R63 / P43 2022

Dewey Class. No.: 610.28

Bio-inspired motor control strategies for redundant and flexible manipulator with application to tooling tasks
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520 $a This book presents a multi-disciplinary view of all aspects of rehabilitation robotics and non-invasive surgery, ideal for anyone new to the field. It includes perspectives from both engineers and clinicians. For skilled researchers and clinicians, it also summarizes current robot technologies and their application to various pathologies. The book will help the readers to develop the know-how and expertise necessary to guide those seeking a comprehensive understanding of this topic through their use of several commercial devices for robotic rehabilitation. The book targets the implementation of efficient robot strategies to facilitate the re-acquisition of motor skills. This technology incorporates the outcomes of behavioral studies on motor learning and its neural correlates into the design, implementation, and validation of robot agents that behave as optimal trainers, efficiently exploiting the structure and plasticity of the human sensorimotor systems.
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