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Movement studies is a core subject for undergraduate pyhysiotherapists. Human Movement Explained will provide a sound understanding of both the theoretical and practical aspects of human movement essential for good clinical practice.
An engaging introduction to human and animal movement seen through the lens of mechanics. How do Olympic sprinters run so fast? Why do astronauts adopt a bounding gait on the moon? How do running shoes improve performance while preventing injuries? This engaging and generously illustrated book answers these questions by examining human and animal movement through the lens of mechanics. The authors present simple conceptual models to study walking and running and apply mechanical principles to a range of interesting examples. They explore the biology of how movement is produced, examining the structure of a muscle down to its microscopic force-generating motors. Drawing on their deep expertise, the authors describe how to create simulations that provide insight into muscle coordination during walking and running, suggest treatments to improve function following injury, and help design devices that enhance human performance.
This is the first book which informs about recent progress in biomechanics, computer vision and computer graphics – all in one volume. Researchers from these areas have contributed to this book to promote the establishment of human motion research as a multi-facetted discipline and to improve the exchange of ideas and concepts between these three areas. The book combines carefully written reviews with detailed reports on recent progress in research.
The volume applies to the study of the motor system the computational approach developed by David Marr for the visual system. Accordingly, understanding movement is viewed as an information processing problem, centred on the representation of appropriate computational structures. In particular, the book deals with the representation of objects, concurrent parallel processes, trajectory formation patterns and patterns of interaction with the environment.A number of modeling techniques are discussed, ranging from computational geometry to artificial intelligence, integrating very different aspects of movement, especially those which are not directly motoric.
Now in its seventh edition, this reputable textbook is an ideal introduction to the study of human movement and an excellent reference encouraging and directing further study. For the first time there is a chapter dedicated to measuring and understanding physical activity, recognising the importance of this area to many health and sports professionals. More time is spent explaining the basic principles of biomechanics and the way they can be used to improve practice, including tissue mechanics and movement analysis techniques. An Introduction to Human Movement and Biomechanics is the perfect guide for students and professionals all around the world to consolidate learning and apply to real clinical/sports situation. Information is given in a clear and accessible way, with case studies, illustrations, textboxes and practical examples. • A chapter on physical (in)activity. • More chapters explaining basic biomechanics and its application to understanding human movement. • A new section dedicated to measuring human movement including movement analysis techniques. • A whole chapter of case studies with real patient and athlete data • Scientific theory related to re-learning movement and movement control. • Problems posed to help students work through the theory and apply it to clinical scenarios • Written by well-known and multi-disciplinary researchers with extensive experience in the field It includes access to the Evolve online resources: • Log on to evolve.elsevier.com/Kerr/movement/ and test out your learning • Case studies, including videoclips and animations • Hundreds of self-assessment questions
First published in 1996. Routledge is an imprint of Taylor & Francis, an informa company.
The sixth edition of this popular text introducing human movement to a range of readers, offers the building blocks, signposts and opportunities to think about the application and integration of basic Human Movement theory. It confirms basic knowledge which is then applied to specific areas. Drawing on the expertise of a range of authors from the healthcare professions, the new edition has adopted a themed approach that links chapters in context. The strength of this current edition is the explicit chapter integration which attempts to mimic the realities of human movement. The themed approach explores the psychosocial influences on movement. Integration is further facilitated by increased cross-referencing between the chapters and the innovative use of one themed case study throughout. Framed about a family unit, this case study enables chapter authors to explicitly apply the content of their chapters to the real world of human movement. Taken as a whole, this more integrated format will enable readers to see the reality and complexity of human movement.
This book is an interdisciplinary guide to empirical research on nonverbal behaviour. It focuses on tools and procedures to investigate body movement and gesture and the relation to cognitive, emotional, and interactive processes. NEUROGES is an objective and reliable coding system for movement behaviour and gesture. Its combination with the multi-media annotation tool ELAN results in an effective movement analysis. Rater training and rating procedures constitute an important component in movement behaviour studies. A novel algorithm assesses interrater agreement for the segmentation of the ongoing flow of behaviour. Recommendations for study designs and statistical data evaluation are given, including innovative procedures for the analysis of interactive partners' body movements.
The new frontiers of robotics research foresee future scenarios where artificial agents will leave the laboratory to progressively take part in the activities of our daily life. This will require robots to have very sophisticated perceptual and action skills in many intelligence-demanding applications, with particular reference to the ability to seamlessly interact with humans. It will be crucial for the next generation of robots to understand their human partners and at the same time to be intuitively understood by them. In this context, a deep understanding of human motion is essential for robotics applications, where the ability to detect, represent and recognize human dynamics and the capability for generating appropriate movements in response sets the scene for higher-level tasks. This book provides a comprehensive overview of this challenging research field, closing the loop between perception and action, and between human-studies and robotics. The book is organized in three main parts. The first part focuses on human motion perception, with contributions analyzing the neural substrates of human action understanding, how perception is influenced by motor control, and how it develops over time and is exploited in social contexts. The second part considers motion perception from the computational perspective, providing perspectives on cutting-edge solutions available from the Computer Vision and Machine Learning research fields, addressing higher-level perceptual tasks. Finally, the third part takes into account the implications for robotics, with chapters on how motor control is achieved in the latest generation of artificial agents and how such technologies have been exploited to favor human-robot interaction. This book considers the complete human-robot cycle, from an examination of how humans perceive motion and act in the world, to models for motion perception and control in artificial agents. In this respect, the book will provide insights into the perception and action loop in humans and machines, joining together aspects that are often addressed in independent investigations. As a consequence, this book positions itself in a field at the intersection of such different disciplines as Robotics, Neuroscience, Cognitive Science, Psychology, Computer Vision, and Machine Learning. By bridging these different research domains, the book offers a common reference point for researchers interested in human motion for different applications and from different standpoints, spanning Neuroscience, Human Motor Control, Robotics, Human-Robot Interaction, Computer Vision and Machine Learning. Chapter 'The Importance of the Affective Component of Movement in Action Understanding' of this book is available open access under a CC BY 4.0 license at link.springer.com.