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Neuro-Robotics electronic resource From Brain Machine Interfaces to Rehabilitation Robotics / edited by Panagiotis Artemiadis.

Contributor(s): Artemiadis, Panagiotis [editor.] | SpringerLink (Online service)Material type: TextTextSeries: Trends in Augmentation of Human PerformancePublication details: Dordrecht : Springer Netherlands : Imprint: Springer, 2014Description: VIII, 448 p. 185 illus., 126 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9789401789325Subject(s): medicine | Rehabilitation | Computer Science | Biomedicine | Biomedicine general | Control, Robotics, Mechatronics | User Interfaces and Human Computer Interaction | Rehabilitation MedicineDDC classification: 610 LOC classification: R-RZOnline resources: Click here to access online
Contents:
1 A Learning Scheme for EMG Based Interfaces: On Task Specificity in Motion Decoding Domain -- 2 State of the art and perspectives of ultrasound imaging as a human-machine interface -- 3 Considering limb impedance in the design and control of prosthetic devices -- 4 Multi-axis Capability for Powered Ankle-foot Prostheses -- 5 Mimicking human-like leg function in prosthetic limbs -- 6 Multi-directional dynamic mechanical impedance of the human ankle; a key to anthropomorphism in lower extremity assistive robots -- 7 Development of the Quantified Human -- 8 Optimal Neural Representations for Brain-Mediated Human-Robot Interactions -- 9 Assisted Computer Interaction for Users with Weak Upper Limb Motion -- 10 Robotic Systems for Gait Rehabilitation -- 11 Enhancing recovery of sensorimotor functions: the role of robot generated haptic feedback in the re-learning process -- 12 Robotic Assistance for Cerebellar Reaching -- 13 A Human Augmentation Approach to Gait Restoration -- 14 Home-based rehabilitation: enabling frequent and effective training -- 15 Unilateral and Bilateral Rehabilitation of the Upper Limb Following Stroke via an Exoskeleton -- Index.
In: Springer eBooksSummary: Neuro-robotics is one of the most multidisciplinary fields of the last decades, fusing information and knowledge from neuroscience, engineering and computer science. This book focuses on the results from the strategic alliance between Neuroscience and Robotics that help the scientific community to better understand the brain as well as design robotic devices and algorithms for interfacing humans and robots. The first part of the book introduces the idea of neuro-robotics, by presenting state-of-the-art bio-inspired devices. The second part of the book focuses on human-machine interfaces for performance augmentation, which can seen as augmentation of abilities of healthy subjects or assistance in case of the mobility impaired. The third part of the book focuses on the inverse problem, i.e. how we can use robotic devices that physically interact with the human body, in order (a) to understand human motor control and (b) to provide therapy to neurologically impaired people or people with disabilities.
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1 A Learning Scheme for EMG Based Interfaces: On Task Specificity in Motion Decoding Domain -- 2 State of the art and perspectives of ultrasound imaging as a human-machine interface -- 3 Considering limb impedance in the design and control of prosthetic devices -- 4 Multi-axis Capability for Powered Ankle-foot Prostheses -- 5 Mimicking human-like leg function in prosthetic limbs -- 6 Multi-directional dynamic mechanical impedance of the human ankle; a key to anthropomorphism in lower extremity assistive robots -- 7 Development of the Quantified Human -- 8 Optimal Neural Representations for Brain-Mediated Human-Robot Interactions -- 9 Assisted Computer Interaction for Users with Weak Upper Limb Motion -- 10 Robotic Systems for Gait Rehabilitation -- 11 Enhancing recovery of sensorimotor functions: the role of robot generated haptic feedback in the re-learning process -- 12 Robotic Assistance for Cerebellar Reaching -- 13 A Human Augmentation Approach to Gait Restoration -- 14 Home-based rehabilitation: enabling frequent and effective training -- 15 Unilateral and Bilateral Rehabilitation of the Upper Limb Following Stroke via an Exoskeleton -- Index.

Neuro-robotics is one of the most multidisciplinary fields of the last decades, fusing information and knowledge from neuroscience, engineering and computer science. This book focuses on the results from the strategic alliance between Neuroscience and Robotics that help the scientific community to better understand the brain as well as design robotic devices and algorithms for interfacing humans and robots. The first part of the book introduces the idea of neuro-robotics, by presenting state-of-the-art bio-inspired devices. The second part of the book focuses on human-machine interfaces for performance augmentation, which can seen as augmentation of abilities of healthy subjects or assistance in case of the mobility impaired. The third part of the book focuses on the inverse problem, i.e. how we can use robotic devices that physically interact with the human body, in order (a) to understand human motor control and (b) to provide therapy to neurologically impaired people or people with disabilities.

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