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Electric Motor Control: DC, AC, and BLDC Motors introduces practical drive techniques of electric motors to enable stable and efficient control of many application systems, also covering basic principles of high-performance motor control techniques, driving methods, control theories and power converters. Electric motor drive systems play a critical role in home appliances, motor vehicles, robotics, aerospace and transportation, heating ventilating and cooling equipment's, robotics, industrial machinery and other commercial applications. The book provides engineers with drive techniques that will help them develop motor drive system for their applications. - Includes practical solutions and control techniques for industrial motor drive applications currently in use - Contains MATLAB/Simulink simulation files - Enables engineers to understand the applications and advantages of electric motor drive systems
Motor control is a relatively young field of research exploring how the nervous system produces purposeful, coordinated movements in its interaction with the body and the environment through conscious and unsconscious thought. Many books purporting to cover motor control have veered off course to examine biomechanics and physiology rather than actual control, leaving a gap in the literature. This book covers all the major perspectives in motor control, with a balanced approach. There are chapters explicitly dedicated to control theory, to dynamical systems, to biomechanics, to different behaviors, and to motor learning, including case studies. Reviews current research in motor control Contains balanced perspectives among neuroscience, psychology, physics and biomechanics Highlights controversies in the field Discusses neurophysiology, control theory, biomechanics, and dynamical systems under one cover Links principles of motor control to everyday behaviors Includes case studies delving into topics in more detail
Human Motor Control is a elementary introduction to the field of motor control, stressing psychological, physiological, and computational approaches. Human Motor Control cuts across all disciplines which are defined with respect to movement: physical education, dance, physical therapy, robotics, and so on. The book is organized around major activity areas. - A comprehensive presentation of the major problems and topics in human motor control - Incorporates applications of work that lie outside traditional sports or physical education teaching
Gain the knowledge that industrial electricians in the field need in order to be successful! The subject of motor controls is one of the major areas of concern for industrial electricians, and this book prepares readers for work in the industry. A "real-world" systems approach is applied to all aspects of motor control, including basic control circuits, sensing devices, solid-state controls, variable speed drives, programmable logic controllers (PLCs), and more. "Must know" applications, procedures, and operations are stressed throughout. Coverage concludes with a series of practical laboratory exercises to help provide an excellent knowledge base of important installation, testing, and troubleshooting procedures.
Biomechanics and Motor Control: Defining Central Concepts provides a thorough update to the rapidly evolving fields of biomechanics of human motion and motor control with research published in biology, psychology, physics, medicine, physical therapy, robotics, and engineering consistently breaking new ground. This book clarifies the meaning of the most frequently used terms, and consists of four parts, with part one covering biomechanical concepts, including joint torques, stiffness and stiffness-like measures, viscosity, damping and impedance, and mechanical work and energy. Other sections deal with neurophysiological concepts used in motor control, such as muscle tone, reflex, pre-programmed reactions, efferent copy, and central pattern generator, and central motor control concepts, including redundancy and abundance, synergy, equilibrium-point hypothesis, and motor program, and posture and prehension from the field of motor behavior. The book is organized to cover smaller concepts within the context of larger concepts. For example, internal models are covered in the chapter on motor programs. Major concepts are not only defined, but given context as to how research came to use the term in this manner. - Presents a unified approach to an interdisciplinary, fragmented area - Defines key terms for understanding - Identifies key theories, concepts, and applications across theoretical perspectives - Provides historical context for definitions and theory evolution
"Variability and Motor Control is a comprehensive examination of research and theoretical perspectives on movement variability and motor control. The text reviews traditional perspectives - which view movement variability as noise or error - and moves on to consider dynamical systems approaches to movement control, which view variability as an index of movement fluctuations." "Written by leading experts in motor control, this text provides valuable information on the importance of variability in the theoretical inquiry into motor control, skill acquisition, and motor impairment; the use of estimated variability as a movement parameter in empirical studies of motor control; and current developments of new dynamical systems approaches to variability and motor control." "Variability and Motor Control is a valuable reference for students and scholars of motor control and learning as well as experimental psychologists, ergonomists, and industrial and human-factors specialists."--BOOK JACKET.Title Summary field provided by Blackwell North America, Inc. All Rights Reserved
Motor control has established itself as an area of scientific research characterized by a multi-disciplinary approach. Scientists working in the area of control of voluntary movements come from different backgrounds including but not limited to physiology, physics, psychology, mathematics, neurology, physical therapy, computer science, robotics, and engineering. One of the factors slowing progress in the area has been the lack of communication among researchers representing all these disciplines. A major objective of the current book is to overcome this deficiency and to promote cooperation and mutual understanding among researchers addressing different aspects of the complex phenomenon of motor coordination. The book offers a collection of chapters written by the most prominent researchers in the field. Despite the variety of approaches and methods, all the chapters are united by a common goal: To understand how the central nervous system controls and coordinates natural voluntary movements. This book will be appreciated as a major reference by researchers working in all the subfields that form motor control. It can also be used as a supplementary reading book for graduate courses in such fields as kinesiology, physiology, biomechanics, psychology, robotics, and movement disorders.In one concise volume, Motor Control presents the diversity of the research performed to understand human movement. Deftly organized into 6 primary sections, the editors, Dr Frederic Danion and Dr Mark Latash, have invited the who's who of specialists to write on: MotorControl: Control of a Complex; Cortical Mechanisms of Motor Control; Lessons from Biomechanics; Lessons from Motor Learning and Using Tools; Lessons from Studies of Aging and MotorDisorders; and Lessons from RoboticsMotor Control will quickly become the go-to reference for researchers in this growing field. Researchers from mechanics and engineering to psychology and neurophysiology, as well as clinicians working in motor disorders and rehabilitation, will be equally interested in the pages contained herein.
"This book will introduce the reader to a broad range of motor types and control systems. It provides an overview of electric motor operation, selection, installation, control and maintenance. The text covers Electrical Code references applicable to the installation of new control systems and motors, as well as information on maintenance and troubleshooting techniques. It includes coverage of how motors operate in conjunction with their associated control circuitry. Both older and newer motor technologies are examined. Topics covered range from motor types and controls to installing and maintaining conventional controllers, electronic motor drives and programmable logic controllers." -- Publisher's description.
Motor Control in Everyday Actions presents 47 true stories that illustrate the phenomena of motor control, learning, perception, and attention in sport, physical activity, home, and work environments. At times humorous and sometimes sobering, this unique text provides an accessible application-to-research approach to spark critical thinking, class discussion, and new ideas for research. The stories in Motor Control in Everyday Actions illustrate the diversity and complexity of research in perception and action and motor skill acquisition. More than interesting anecdotes, these stories offer concrete examples of how motor behavior, motor control, and perception and action errors affect the lives of both well-known and ordinary individuals in various situations and environments. Readers will be entertained with real-life stories that illustrate how research in motor control is applicable to real life: •Choking Under Pressure examines information processing and how it changes under pressure. •The Gimme Putt shows how Schmidt’s law can be used to predict the accuracy of golf putts. •Turn Right at the Next Gorilla examines inattention blindness and its role in traffic accidents. •The Farmers’ Market describes reasons why a man drives his car through a crowded open-air market, killing and injuring dozens of shoppers in the process. •Craps and Weighted Bats describes the curious role of myths and superstition in how we play games. •And 42 other examples of motor control in everyday actions will both entertain and inform. Each story is followed by a set of self-directed activities that are progressively more complex. These activities, plus the additional notes and suggested readings and websites at the conclusion of each story, provide a starting point for critical thinking about the reasons why human actions sometimes go awry. A reader-friendly writing style and easy-to-follow analysis and conclusions assist students in gaining mastery of the issues presented, conceptualizing new research projects, and applying the content to current research. The stories are grouped into three parts, beginning with situations involving errors and mistakes in perception, action, or decision making. Next, stories investigating varied techniques for studying perception and action are presented. The remaining scenarios provide readers with a look at research focusing on the motor learning process as well as some of the unexpected discoveries resulting from those investigations. Motor Control in Everyday Actions will engage its readers—not only through the central topic of the story but also in the fundamental concepts involving perception, action, and learning. Used as a springboard for new research or as a catalyst for engaging discussion, Motor Control in Everyday Actions offers perspectives that will enhance understanding of how human beings interact with their world.