Full Description
The concepts represented in this textbook are explored for the first time in assistive and rehabilitation robotics, which is the combination of physical, cognitive, and social human-robot interaction to empower gait rehabilitation and assist human mobility. The aim is to consolidate the methodologies, modules, and technologies implemented in lower-limb exoskeletons, smart walkers, and social robots when human gait assistance and rehabilitation are the primary targets.
This book presents the combination of emergent technologies in healthcare applications and robotics science, such as soft robotics, force control, novel sensing methods, brain-computer interfaces, serious games, automatic learning, and motion planning. From the clinical perspective, case studies are presented for testing and evaluating how those robots interact with humans, analyzing acceptance, perception, biomechanics factors, and physiological mechanisms of recovery during the robotic assistance or therapy.
Interfacing Humans and Robots for Gait Assistance and Rehabilitation will enable undergraduate and graduate students of biomedical engineering, rehabilitation engineering, robotics, and health sciences to understand the clinical needs, technology, and science of human-robot interaction behind robotic devices for rehabilitation, and the evidence and implications related to the implementation of those devices in actual therapy and daily life applications.
Contents
Robots for Gait Assistance and Rehabilitation.- Experiences of Clinicians Using Rehabilitation Robotics.- Bioinspired Design for a Lower-limb Exoskeleton.- Control Strategies Aimed at a Lower Limb Exoskeleton.- Assessment of Lower-limb Exoskeletons.- Gait Phase Detection Using Foot Motion Data From a Single Inertial Measurement Unit in Hemiparetic Individuals.- Variable Stiffness Actuators for Wearable Applications in Rehabilitation.- Experimental Characterization of Actuators for Assistive Applications.- Control Strategies for Assisted Gait With Smart Walkers.- Social Assistive Robotics for Gait Rehabilitation.
