从人体上肢到康复机器人 人体上肢运动机理研究导论 英文版PDF格式文档图书下载

Chapter 1 Introduction 1

1.1 The Motivation 1

1.2 The main problem and the main thesis 2

1.3 Organization of the book 4

Chapter 2 Human motor control 6

2.1 Introduction 6

2.2 The biological system 7

2.1.1 The central nervous system 7

2.2.2 Proprioceptors and the spinal cord 8

2.2.3 Motor neurons,and motor units 9

2.2.4 The muscle and the joints 10

2.2.5 Limitations of the technical description 10

2.3 Neuromotor control strategies 11

2.3.1 Feedback control 11

2.3.2 Feed-forward control 12

2.3.3 Adaptive control 13

2.3.4 Motor planning 14

2.3.5 Optimal control 15

2.3.6 Internal models 17

2.3.7 Artificial neural network control 18

2.4 Redundancy,degeneracy and parallelism 20

2.4.1 Multiple feedback loops 21

2.4.2 Spatial filtering 22

2.4.3 Learning to exploit the redundancy 23

2.5 Mathematical modeling 24

2.5.1 Theoretical muscle modeling 25

2.5.2 Modeling assumptions 25

2.5.3 Muscle contraction 26

2.5.4 Musculoskeletal system 27

2.5.5 Muscle model 28

2.5.6 Arm model 29

Chapter 3 Studying motor control 31

3.1 The inverse control problem 31

3.2 Forward model 33

3.3 Inverse model 35

3.4 Trajectory planning 35

3.5 Optimal control 36

3.6 Adaptive control 38

3.7 Hierarchical control 39

3.8 Neural network control 40

3.9 Reinforcement learning 42

3.10 Impedance control 43

3.11 End-effector control 45

Chapter 4 Motor learning and rehabilitation robot 47

4.1 Human-robot interaction 47

4.2 Motor learning 48

4.3 Current view of rehabilitation robot 49

4.4 Problem in current view 51

Chapter 5 Posture control of the upper limb 54

5.1 Posture control 54

5.2 Artificial neural network control 57

5.3 Multilayer perceptron network controller 59

5.3.1 Structure 59

5.3.2 Training algorithm 60

5.3.3 Simulation results 61

5.3.4 Discussion 63

5.4 Multivariable sliding-mode-based fuzzy CMAC 64

5.4.1 Problem formulation 64

5.4.2 Sliding-mode-based fuzzy CMAC 65

5.4.3 Training algorithm 66

5.4.4 Stability analysis 68

5.4.5 Simulation results 70

Chapter 6 Trajectory tracking control of the upper limb 72

6.1 Trajectory tracking control 72

6.2 Evolutionary diagonal recurrent neural network 73

6.2.1 Overview 73

6.2.2 Muscle model 74

6.2.3 Control system structure 74

6.2.4 Structure of the DRNN 75

6.2.5 Optimization of the DRNN Structure 75

6.2.6 DRNN Weight Training 78

6.2.7 Simulation Results 79

6.2.8 Discussion 85

6.3 Sliding-mode-based diagonal recurrent CMAC 85

6.3.1 Overview 85

6.3.2 Problem formulation 86

6.3.3 Sliding mode controller 86

6.3.4 SDRCMAC Architecture 87

6.3.5 Training algorithm 89

6.3.6 Stability analysis 91

6.3.7 Implementations and results 93

Chapter 7 Human-robot control system 96

7.1 Overview 96

7.2 Human-robot system 97

7.2.1 Structure 97

7.2.2 Function of patients'voluntary torque 97

7.2.3 Dynamic model 98

7.2.4 Control requirement 98

7.3 Sliding mode controller 99

7.3.1 Problem formulation 99

7.3.2 Controller design 100

7.3.3 Stability of the Control System 101

7.3.4 Simulation results 101

7.3.5 Summary and discussion 104

7.4 Robust control system 105

7.4.1 Controller architecture 105

7.4.2 Robust controller 105

7.4.3 Simulation results 106

7.4.4 Experimental results 108

7.4.5 Summary and discussion 114

7.5 SDRCMAC 115

Reference 117

查看更多关于从人体上肢到康复机器人 人体上肢运动机理研究导论 英文版的内容