Complex Sports Biodynamics: With Practical Applications in TennisWhat are motor abilities of Olympic champions? What are essential psyc- logical characteristics of Mark Spitz, Carl Lewis and Roger Federer? How to discover and maximally develop motor intelligence? How to develop - domitable will power of Olympic champions? What are the secrets of sel- tion for the future Olympic champions? Does for every sport exist a unique model of an Olympic champion? This book gives a modern scienti?c answers to the above questions. Its purpose is to give you the answer to everything you ever wanted to ask about sport champions, but didn’t know who or how to ask. In particular, the purpose of this book is to give you the answer to eve- thing you ever wanted to ask about advanced tennis, but didn’t know who or how to ask. Its aim is to dispel classical myths of a “biomechanically sound” serve, forehand, and backhand, as well as provide methods for developing superior tennis weapons,a lightning–fast game,and unrivaled mental speed and strength – essential qualities of a future tennis champion. |
Contents
1 | |
5 | |
10 | |
Structure and Function of Human Motion | 23 |
CSBSystem | 55 |
Escape from Chaos | 68 |
Energy and Information Flows | 79 |
Artificial Neural Networks | 87 |
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Common terms and phrases
ability abstract action activity agent applied associated associative array athlete backhand ball basic behavior Biomech biomechanics body brain called cerebellar cerebellum champion cognitive complex components concept contraction coordinates correlation cortex creativity deep nuclei defined developed dynamics energy environment equations example factor analysis feedback force forehand function future tennis granule cells Hamiltonian human input intelligence Ivancevic joint jumping knowledge language learning linear loadings logic mathematical matrix measure mechanical memoization memory mental method mind mossy fibers motion motor movement muscle fibers muscle spindles muscular neural neurons nonlinear object output parallel fibers parameters pattern performance person phase philosophy physical players plyometric problem psychology psychometrics Purkinje cells racket reflex represents Roger Federer rotation scientific sensory skeletal muscle solving space speed spinal sport stimulus strength stretch-reflex structure synapses technique tests theory tion torques variables vector velocity