Buch, Englisch, 240 Seiten
Buch, Englisch, 240 Seiten
ISBN: 978-1-394-40273-1
Verlag: John Wiley & Sons Inc
Exploration on how neurodynamic methods can be effectively applied to control complex, flexible robotic systems in research, and real-world settings
Neurodynamic Methods for Continuum Robot Control presents a comprehensive exploration of neurodynamic control methods for continuum robots—a new generation of soft, flexible robotic systems inspired by nature. The book is organized into seven thematic parts and eleven chapters, progressing from fundamental analytical techniques to advanced hybrid and adaptive control systems. After the introduction chapter, each chapter includes detailed theoretical derivations, algorithm design, and extensive validation through simulations and physical experiments.
This book explores how continuum robots are controlled effectively and robustly in real time, without requiring complex modeling or extensive data training. The solution explored throughout this book is a suite of neurodynamic control algorithms, which offer a powerful alternative to traditional model-based and learning-based approaches. These neurodynamic methods—particularly gradient neurodynamics (GND) and zeroing neurodynamics (ZND)—allow for fast, adaptive, and model-free solutions to inverse kinematics and trajectory tracking problems.
Written by a team of highly qualified authors with extensive experience in the field, this book includes information on: - Inherent challenges in modeling and controlling continuum robots, including model uncertainty, high dimensionality, and elastic deformation
- Mathematical foundations of GND and ZND and the derivation and application of Jacobian-based and model-free kinematic control methods
- Advanced neurodynamic models including predefined-time convergent, time-synchronized, and varying-parameter schemes
- Hybrid intelligent methods such as fuzzy logic-enhanced neurodynamics and cerebellum-inspired architectures
- Benefits of neurodynamic control, including real-time performance, robustness, adaptability, and simplicity in deployment
Discussing theory, design, and applications to deliver state-of-the-art research, Neurodynamic Methods for Continuum Robot Control is an essential resource on the subject for researchers, graduate students, and advanced practitioners—not only a technical reference, but also a visionary guide to the future of intelligent robotics.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Foreword xi
About the Authors xiii
Preface xv
Acknowledgments xxi
Acronyms xxii
Part I Introduction 1
1 Introduction to Continuum Robots and Theoretical Foundations 3
1.1 Introduction 3
1.2 Modeling Continuum Robots Using PCC 4
1.3 Neurodynamic Models 6
1.4 Chapter Summary 7
Part II Model-based Neurodynamic Methods 9
2 Analytical-Jacobian-based Neurodynamic Control Methods 11
2.1 Introduction 11
2.2 Model-based Kinematic Control 12
2.3 Simulative Verification 21
2.4 Chapter Summary 26
Part III Model-free Neurodynamic Methods 27
3 Continuous-time Hybrid Neurodynamic Control Methods 29
3.1 Introduction 29
3.2 Model-free Kinematic Control 31
3.3 Simulative Verification 34
3.4 Chapter Summary 41
4 Discrete-time Neurodynamic Control Methods 43
4.1 Introduction 43
4.2 Method 44
4.3 Verification 48
4.4 Chapter Summary 54
Part IV Model- and Inverse-free Zeroing Neurodynamics Methods 57
5 Quad Neurodynamic Control Methods 59
5.1 Introduction 59
5.2 Preliminary 62
5.3 Velocity-level Quad Neurodynamics 63
5.4 Acceleration-level Quad Neurodynamics 67
5.5 Verification of DQND4 73
5.6 Verification of ADQN 75
5.7 Chapter Summary 80
Part V Variants of Zeroing Neurodynamics Methods 81
6 Nonlinearly Activated Zeroing Neurodynamic Control Methods 83
6.1 Introduction 83
6.2 Variants of ZND Models 84
6.3 Method 89
6.4 Verification 91
6.5 Chapter Summary 99
7 Varying-parameter Zeroing Neurodynamic Control Methods 101
7.1 Introduction 101
7.2 Preliminary 103
7.3 Varying-parameter ZND Methods 104
7.4 Recursive Least Square-aided Varying-parameter ZND Method 107
7.5 Verification of VP-ZND-1 and VP-ZND-2 111
7.6 Verification of ADVPEZND 114
7.7 Chapter Summary 117
8 Prescribed-performance Convergent Zeroing Neurodynamic Control Methods 119
8.1 Introduction 119
8.2 Predefined-time Convergent Method 121
8.3 PTS Method 126
8.4 Prescribed-performance Control Method 134
8.5 Verification of PTC-ZND 143
8.6 Verification of PTS-ZND 148
8.7 Verification of BPAC 149
8.8 Chapter Summary 161
Part VI Enhancing Zeroing Neurodynamics Methods with Intelligent Algorithms 163
9 Fuzzy-enhanced Zeroing Neurodynamic Control Method 165
9.1 Introduction 165
9.2 Method 167
9.3 Verification 170
9.4 Chapter Summary 174
10 Spiking Neural Network-enhanced Zeroing Neurodynamic Control Method 175
10.1 Introduction 175
10.2 Preliminary 176
10.3 LSM-based Control Scheme 179
10.4 Verification 185
10.5 Chapter Summary 186
Part VII Neurodynamics-based Model-free Teleoperation Method 187
11 Neurodynamics-based Teleoperation 189
11.1 Introduction 189
11.2 Preliminary 190
11.3 Method 191
11.4 Verification 196
11.5 Chapter Summary 198
References 199
Index 215
