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Researchers, graduate students, and practitioners alike will benefit from this state-of-the-art reference. It's the first book to explain in a single volume the essential components of three-dimensional analysis of human movement. Readers will gain a fundamental understanding of methods and technology used to capture, reconstruct, and process 3-D data; concepts and techniques of mechanical and neuromuscular modeling, including robotics; and the application of 3-D analysis. The editors have brought together contributions from international experts to create a technical manual that demonstrates the possibilities and potential pitfalls of 3-D analysis of human movement. More than 140 tables, diagrams, and photos throughout the book illustrate essential content.
Thanks to improvements in motion recording technology and computer data processing, real-time, full-body 3D representations of human locomotions are now possible. This book examines 3D analysis of human locomotion and discusses fundamental aspects of functional anatomy, motor control, and neuroscience applied to locomotion. It provides advice on setting up and operating a gait laboratory along with the essentials of instrumentation and the current modeling techniques for estimating muscle forces.
The importance of measurements for the proper assessment of human locomotion is increasingly being recognized. The fields of application encompass both healthy and pathological locomotion as encountered in rehabilitation medicine, orthopedics, kinesiology, sports medicine, and the like. Measurement of Human Locomotion provides an up-to-date des
Human footprints provide some of the most emotive and tangible evidence of our ancestors. They provide evidence of stature, presence, behaviour and in the case of early hominin footprints, evidence with respect to the evolution of human gait and foot anatomy. While human footprint sites are rare in the geological record the number of sites around the World has increased in recent years, along with the analytical tools available for their study. The aim of this book is to provide a definitive review of these recent developments with specific reference to the increased availability of three-dimensional digital elevation models of human tracks at many key sites. The book is divided into eight chapters. Following an introduction the second chapter reviews modern field methods in human ichnology focusing on the development of new analytical tools. The third chapter then reviews the major footprint sites around the World including details on several unpublished examples. Chapters then follow on the role of geology in the formation and preservation of tracks, on the inferences that can be made from human tracks and the final chapter explores the application of this work to forensic science. Audience: This volume will be of interest to researchers and students across a wide range of disciplines – sedimentology, archaeology, forensics and palaeoanthropology.
This book addresses instruments, methodologies and diagnostic methods used to evaluate and diagnose human movement, locomotion and physical status in general. Starting from historical perspective, the idea of understanding human locomotion by applying technical measurement devices and incorporating measurement data into physical representation of gross body movement is presented and explained, an approach known as inverse dynamics. With this approach as a kind of umbrella concept, components of measurement systems including relevant signal and data processing methods are described. Modern instruments to capture body movement by measuring its kinematics, kinetics and surface electromyography (sEMG) are thus described; all systems being used dominantly—if not exclusively—in a movement analysis laboratory setting. Focusing mainly on human posture and gait, but including also examples of movement patterns from selected kinesiological and sports activities, the book attempts to present essentials of biomechanics and biomedical engineering approach to this subject matter. It illustrates how data collected and elaborated by modern engineering technology can complement traditional expert knowledge of a kinesiologist or a medical doctor. The book is applicable in the fields of sports, physical activities, as well as in medical diagnostics and rehabilitation. The examples of this book’s practical application might be in evaluation of efficiency of human gait, in evaluation of skeletal muscle fatigue in physical exercise, in biomechanical diagnostics of traumatological conditions requiring orthopaedic treatment and the like. This book can also be used in planning and executing research endeavours, particularly in a clinical context as a reference for various diagnostics procedures. It presents the lecture notes of a course carrying the same name within Medical Studies in English at the University of Zagreb for more than a decade.
Biomechanics and Gait Analysis presents a comprehensive book on biomechanics that focuses on gait analysis. It is written primarily for biomedical engineering students, professionals and biomechanists with a strong emphasis on medical devices and assistive technology, but is also of interest to clinicians and physiologists. It allows novice readers to acquire the basics of gait analysis, while also helping expert readers update their knowledge. The book covers the most up-to-date acquisition and computational methods and advances in the field. Key topics include muscle mechanics and modeling, motor control and coordination, and measurements and assessments. This is the go to resource for an understanding of fundamental concepts and how to collect, analyze and interpret data for research, industry, clinical and sport.
This book focuses on the examination of forces that create entire body motion.
With its focus on the normal and abnormal mechanical interactions between the muscles and joints of the body, Kinesiology of the Musculoskeletal System: Foundations for Rehabilitation, 3rd Edition provides a foundation for the practice of physical rehabilitation. This comprehensive, research-based core text presents kinesiology as it relates to physical rehabilitation in a clinically relevant and accessible manner. It provides students and clinicians with the language of human movement — and acts as a bridge between basic science and clinical management. Full-color anatomic and kinesiologic illustrations clearly demonstrate the anatomy, functional movement, and biomechanical principles underlying movement; and dynamic new video clips help you interpret new concepts with visual demonstration. - More than 900 high-quality illustrations provide you with the visual accompaniments you need to comprehend the material. - Clinical Connections boxes at the end of each chapter in Sections II through IV highlight or expand upon a particular clinical concept associated with the kinesiology covered in the chapter. - Special Focus boxes interspersed throughout the text provide numerous clinical examples that demonstrate why kinesiologic information is needed. - Critical thinking questions challenge you to review or reinforce the main concepts contained within each chapter. - Evidence-based approach emphasizes the importance of research in physical therapy decision-making. - Evolve site for students comes with video clips, answers to study questions, and references linked to Medline. - Evolve site for instructors includes an image collection from the text, teaching tips, and lab activities. - NEW! Kinesiology of Running chapter covers the biomechanics of running. - NEW! Video clips help you interpret new concepts with visual demonstration. - NEW! All-new content on the pelvic floor. - NEW! Thoroughly updated references emphasize the evidence-based presentation of information in the text. - NEW! QR codes linked to videos for easy viewing on mobile devices. - NEW! Pageburst enhanced edition allows you to access multimedia content from the eBook without going to another website.
The 19th-century pioneers of motor physiology — Helmholtz, Hering, Fick and others — used the mathematics of motion, known as kinematics, to describe the laws of human movement and to deduce the neural control principles underlying these laws. After long neglect — partly due to limitations in stimulation and recording techniques — the kinematic approach is now resurging, fortified with modern computers and electrophysiology. New developments in recording techniques, as well as an improved understanding of the complex control properties of three-dimensional movements, have led to a flood of new research in this area. The classical laws of Donders and Listing have been confirmed and generalized, and computer simulations of the neural control of three-dimensional movement have been developed and tested. In this book, some of the world's leading scientists of motor control discuss how the brain represents and transforms the kinematic variables of movement. Background chapters explain the basic concepts — non-commutativity, redundancy and the classical laws — and their application to normal function and motor disorders, and shorter articles describe current research. The contributions are based on presentations at a symposium held in Tubingen in August 1995. The wide scope of the book should enable researchers to gain an overview of current research, but should also help newcomers to the field to get a good understanding of the questions and problems involved in three-dimensional movement control.