"This book covers research on coordination and control, as well as skill acquisition and nonlinear pedagogy, and details how coordination patterns are assembled, controlled and acquired. The purpose of this book is to synthesize and elucidate a constraints-led approach to skill acquisition"--
Dynamics of Skill Acquisition, Second Edition, provides an analysis of the processes underlying human skill acquisition. It presents the ecological dynamics multidisciplinary framework for designing learning environments that foster skill development.
Dynamics of Skill Acquisition, Second Edition, provides an analysis of the processes underlying human skill acquisition. As the first text to outline the multidisciplinary ecological dynamics framework for understanding movement behavior, this heavily updated edition stays on the cutting edge, with principles of nonlinear pedagogy and methodologies from the constraints-led approach.
Students and practitioners across a variety of professions&;including coaches, physical educators, trainers, and rehabilitation specialists&;will appreciate the applied focus of this second edition. Movement models throughout the text provide examples for visualizing task constraints and enhancing the study and understanding of movement behavior. Athletes and sports teams are presented as specific complex adaptive systems, with information on designing learning environments and adapting programs to foster skill development.
Readers will learn the historical evolution of dynamical systems theory and the ecological dynamics framework. These foundational concepts illustrate the integration between intentional action, cognition, and decision making and their effects on performance and behavior. Complex theoretical concepts are explained in simple terms and related to practice, focusing on the implications of the work of pioneering researchers such as Nikolai Bernstein, Egon Brunswik, James Gibson, Scott Kelso, and Karl Newell. Case studies written by practitioners contain specific examples of the ecological dynamics framework in action, bringing theory to life. By learning how to identify and manipulate key constraints that influence learning skilled behavior, readers will gain insight into practice designs for creating positive learning experiences that enable individuals to develop and learn functional movements.
Throughout the book, learning features guide readers through material with clear direction and focus to improve understanding. Spotlight on Research sidebars provide detailed descriptions of important studies to connect theory, research, and application. Lab activities teach application skills beyond the content, ensuring reader understanding. In addition, chapter objectives, self-test questions, and Key Concept sidebars highlight important concepts in each chapter.
With the study of human movement now bridging many disciplines, including motor development, psychology, biology, and physical therapy, Dynamics of Skill Acquisition, Second Edition, provides a timely analysis of the ecological dynamics framework and presents a comprehensive model for understanding how coordination patterns are assembled, controlled, and acquired. The theoretical roots and development of the ecological dynamics framework provide application strategies for all people with an interest in movement coordination and control.
| Preface |
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v | |
| Acknowledgments |
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ix | |
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Chapter 1 Athletes and Sports Teams Considered as Complex Adaptive Systems |
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1 | (24) |
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The Ecological Dynamics Theoretical Framework |
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3 | (6) |
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Learning Design in Ecological Dynamics |
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9 | (8) |
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Transfer Conceptualized in Ecological Dynamics |
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17 | (5) |
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22 | (3) |
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Chapter 2 Physical Constraints on Coordination: Dynamical Systems Theory |
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25 | (22) |
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Complex Systems: A Definition |
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26 | (3) |
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Constraints on Complex Systems |
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29 | (4) |
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Emergent Behavior in Human Movement |
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33 | (2) |
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Constraints and Movement Coordination |
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35 | (4) |
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Coordinating Degrees of Freedom in the Human Movement System |
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39 | (5) |
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44 | (3) |
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Chapter 3 Informational Constraints on Coordination: An Ecological Psychology Perspective |
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47 | (20) |
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Conditions for a Satisfactory Theoretical Account of Coordination |
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48 | (2) |
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50 | (6) |
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56 | (2) |
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Information-Movement Coupling |
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58 | (2) |
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Perceptual Learning and Attunement |
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60 | (2) |
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Haptic Constraints on Movement |
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62 | (2) |
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Acoustic Constraints on Movement |
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64 | (2) |
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66 | (1) |
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Chapter 4 Intentionality, Cognition, and Decision Making in Sport |
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67 | (20) |
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68 | (2) |
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70 | (14) |
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Decision-Making Behavior Emerges From Performer-Environment Interaction 82 Summary |
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84 | (3) |
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Chapter 5 Understanding the Dynamics of Skill Acquisition |
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87 | (18) |
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Constructing the Perceptual-Motor Landscape |
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88 | (10) |
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98 | (4) |
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102 | (3) |
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Chapter 6 How Interacting Constraints Support a Nonlinear Pedagogy |
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105 | (16) |
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Ecological Scale of Behavioral Analysis |
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106 | (6) |
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What Is Nonlinear Pedagogy? Key Design Principles |
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112 | (4) |
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What Does This Mean for the Teacher and Learner? |
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116 | (3) |
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119 | (2) |
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Chapter 7 Redefining Learning: Practical Issues for Representative Learning Design |
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121 | (22) |
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Newell's Model of Motor Learning |
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122 | (7) |
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Is the Stage Model of Learning Universal? |
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129 | (2) |
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Learning Redefined From an Ecological Dynamics Approach |
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131 | (3) |
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Key Features of Learning: Issues for Representative Learning Design |
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134 | (7) |
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141 | (2) |
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Chapter 8 Designing Individualized Practice Environments |
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143 | (26) |
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Individual Differences in Skill Acquisition |
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144 | (10) |
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Affective Learning Design |
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154 | (1) |
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Focus of Attention: Remaining in the Moment |
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155 | (2) |
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How Practitioners Work With Individual Differences |
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157 | (8) |
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165 | (4) |
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Chapter 9 Practice for Sports Teams |
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169 | (20) |
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Global-to-Local and Local-to-Global Self-Organizing Tendencies |
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172 | (14) |
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186 | (3) |
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Chapter 10 Modified Perceptual Training for Athletes |
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189 | (18) |
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What Is Modified Perceptual Training and Why Do It? |
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190 | (5) |
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195 | (9) |
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204 | (3) |
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Chapter 11 Practitioners as Designers |
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207 | (16) |
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208 | (13) |
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221 | (2) |
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Chapter 12 Expertise and Talent Development in Sport |
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223 | (16) |
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Transfer in Learning: Where Does Generality and Specificity of Transfer Originate? |
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224 | (13) |
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237 | (2) |
| Glossary |
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239 | (4) |
| References |
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243 | (22) |
| Index |
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265 | (10) |
| About the Authors |
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275 | |
Chris Button, PhD, is a professor and the dean of the School of Physical Education, Sport, and Exercise Sciences at the University of Otago in Dunedin, New Zealand. He received his PhD in sport and exercise science in 2000 from Manchester Metropolitan University in the United Kingdom. His doctoral research focused on coordination and interception skills and applying ecological concepts to the study of interceptive actions.
Button is accredited as a biomechanist through Sport and Exercise Science New Zealand. He is also an executive committee member of the Australasian Skill Acquisition Network. Button regularly works with the coaches and athletes of High Performance New Zealand and has provided sport science support in netball, football (soccer), swimming, and motor sports.
Button publishes his research in a variety of books and journals on sport science, pedagogy, and movement science. Such topics have attracted interest within both scientific and political circles, as evidenced by recent invitations to provide expertise for the New Zealand Ministry of Health, Water Safety New Zealand, High Performance Sport New Zealand, and others. He is also a soccer coach for junior and adult learners.
Ludovic Seifert, PhD, is a professor at the University of Rouen Normandy. He is the vice dean of the Centre dEtudes des Transformations des ActivitÉs Physiques et Sportives (CETAPS) lab and the head of the masters program in sport performance analysis. He obtained a certificate in physical education in 1998 and a PhD in sport science from the University of Rouen Normandy in 2003.
Seiferts field of research relates to motor control and learning and expertise and talent development following an ecological dynamics approach. His emphasis focuses on movement coordination and visual-motor skills, with a particular interest in swimming and climbing. Such topics have led him to work closely with several French sport federations (such as swimming, climbing and mountaineering, and ice hockey) and professional clubs. His research has been published and cited extensively in peer-reviewed journals.
Seifert is the universitys representative for Ecological Dynamics & Sport Performance, an e-lab of UNESCOs UniTwin Complex Systems Digital Campus program. He is also certified as a mountain guide by the International Federation of Mountain Guides Association (IFMGA).
Jia Yi Chow, PhD, is an associate professor in the physical education and sport science department in the National Institute of Education at Nanyang Technological University. He is also an associate dean in the Office of Teacher Education at the same institute.
A physical educator by training, Chows area of specialization is in motor control and learning. His key research work includes nonlinear pedagogy, investigation of multiarticular coordination changes, analysis of team dynamics from an ecological psychology perspective, and examining visual-perceptual skills in sports expertise. He works closely with colleagues and practitioners in the Singapore Ministry of Education, local sport institutes, and international collaborators to enhance the work on nonlinear pedagogy.
Duarte AraÚjo, PhD, is an associate professor and director of the department of sport and health and faculty of human kinetics at the University of Lisbon in Portugal. He leads both the research center of this school, CIPER, as well as the Laboratory of Expertise in Sport. He is an associate editor of the journal Psychology of Sport and Exercise as well as the Journal of Expertise.
AraÚjos research on sport expertise and decision making, performance analysis, and affordances for physical activity has been funded by the FundaÇÃo para a CiÊncia e a Tecnologia. He has published more than 130 papers in scientific journals (with over 4,500 citations in the Web of Science) and more than 15 books about expertise, team performance, variability, cognition, and decision making in sport. He also supervises several doctoral students from Portugal, Italy, and Australia.
Keith Davids, PhD, is a professor of motor learning at the Sport and Human Performance Research Group at Sheffield Hallam University. He graduated from the University of London and obtained a PhD in psychology and physical education at the University of Leeds. He has previously held professorial positions in the United Kingdom (Manchester Metropolitan University), New Zealand (University of Otago), Australia (Queensland University of Technology), and Finland (Finnish Distinguished Professor in the faculty of sport and health sciences at the University of JyvÄskylÄ).
Davids research program investigates sport performance, skill acquisition, and expertise enhancement in sport and how to design learning, training, and practice environments to successfully achieve these outcomes. He collaborates on research in sport, physical activity, and exercise with colleagues at universities in Spain, Portugal, France, Netherlands, Iran, Macedonia, New Zealand, Australia, and Finland. A large proportion of his scientific and practical research has been undertaken in collaboration with the New Zealand South Island Sports Academy, the Queensland Academy of Sport, the Australian Institute of Sport, Diving Australia, Cricket Australia, GB Cycling, and the English Institute of Sport.
