Details

Title: Human modeling for bio-inspired robotics: mechanical engineering in assistive technologies
Other creators: Ueda Jun; Kurita Yuichi
Imprint: London, UK: Academic Press, 2017
Collection: Электронные книги зарубежных издательств; Общая коллекция
Subjects: Робототехнические системы; Биомеханика
UDC: 621.865.5; 577.353
Document type: Other
File type: Other
Language: English
Rights: Доступ из локальной сети ФБ СПбПУ (чтение, печать, копирование)
Record key: RU\SPSTU\edoc\52783

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Human Modelling for Bio-inspired Robotics: Mechanical Engineering in Assistive Technologies presents the most cutting-edge research outcomes in the area of mechanical and control aspects of human functions for macro-scale (human size) applications. Intended to provide researchers both in academia and industry with key content on which to base their developments, this book is organized and written by senior experts in their fields. Human Modeling for Bio-Inspired Robotics: Mechanical Engineering in Assistive Technologies offers a system-level investigation into human mechanisms that inspire the development of assistive technologies and humanoid robotics, including topics in modelling of anatomical, musculoskeletal, neural and cognitive systems, as well as motor skills, adaptation and integration. Each chapter is written by a subject expert and discusses its background, research challenges, key outcomes, application, and future trends. This book will be especially useful for academic and industry researchers in this exciting field, as well as graduate-level students to bring them up to speed with the latest technology in mechanical design and control aspects of the area. Previous knowledge of the fundamentals of kinematics, dynamics, control, and signal processing is assumed. Presents the most recent research outcomes in the area of mechanical and control aspects of human functions for macro-scale (human size) applicationsCovers background information and fundamental concepts of human modellingIncludes modelling of anatomical, musculoskeletal, neural and cognitive systems, as well as motor skills, adaptation, integration, and safety issuesAssumes previous knowledge of the fundamentals of kinematics, dynamics, control, and signal processing.

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