The book introduces anti-sway control approaches for double-pendulum overhead cranes, including control methods, theoretical analyses, simulation results and source codes of each control design. All methods are analyzed and verified by MATLAB. Passivity-based, sliding-mode-based and Fuzzy-logic-based control methods are massively discussed. This book is suitable for both academic researchers and industrial R&D engineers.
The book introduces anti-sway control approaches for double-pendulum overhead cranes, including control methods, theoretical analyses, simulation results and source codes of each control design. All methods are analyzed and verified by MATLAB. Passivity-based, sliding-mode-based and Fuzzy-logic-based control methods are massively discussed. This book is suitable for both academic researchers and industrial R&D engineers.
Dianwei Qian, North China Electric Power University, Beijing, China
Inhaltsangabe
Table of content:
Chapter 1 Introduction
Chapter 2 System Model
2.1 Modelling via the Lagrangian method 2.2 Model Insight
Chapter 3 Passivity-based anti-sway control
3.1 What is Passivity? 3.2 Passivity Analysis 3.3 Control design based on Passivity 3.4 Simulation Resuls 3.5 Source codes
Chapter 4 Sliding-mode-based anti-sway control
4.1 Sliding mode and sliding mode control 4.2 Incremental sliding mode design and stability analysis 4.3 Simulation results 4.4 Hierarchical sliding mode design and stability analysis 4.5 Simulation results 4.6 Source codes
Chapter 5 Fuzzy-logic-based anti-sway control 5.1 Fuzzy logic and fuzzy control 5.2 Single-input-rule-modules based fuzzy systems 5.3 SIRM-based anti-sway control design 5.4 Simulation results 5.5 Source code
Chapter 6 Output feedback based anti-sway control 6.1 Why is the output feedback needed? 6.2 Output-based anti-sway control design and stability analysis 6.3 Simulation results 6.4 Source code
Chapter 7 Input shaping based anti-sway control 7.1 Input shaping and its merits 7.2 Input shaping-based anti-sway control design 7.3 Simulation results 7.4 Input shaping based fuzzy anti-sway control design 7.5 Simulation results 7.6 Source code
2.1 Modelling via the Lagrangian method 2.2 Model Insight
Chapter 3 Passivity-based anti-sway control
3.1 What is Passivity? 3.2 Passivity Analysis 3.3 Control design based on Passivity 3.4 Simulation Resuls 3.5 Source codes
Chapter 4 Sliding-mode-based anti-sway control
4.1 Sliding mode and sliding mode control 4.2 Incremental sliding mode design and stability analysis 4.3 Simulation results 4.4 Hierarchical sliding mode design and stability analysis 4.5 Simulation results 4.6 Source codes
Chapter 5 Fuzzy-logic-based anti-sway control 5.1 Fuzzy logic and fuzzy control 5.2 Single-input-rule-modules based fuzzy systems 5.3 SIRM-based anti-sway control design 5.4 Simulation results 5.5 Source code
Chapter 6 Output feedback based anti-sway control 6.1 Why is the output feedback needed? 6.2 Output-based anti-sway control design and stability analysis 6.3 Simulation results 6.4 Source code
Chapter 7 Input shaping based anti-sway control 7.1 Input shaping and its merits 7.2 Input shaping-based anti-sway control design 7.3 Simulation results 7.4 Input shaping based fuzzy anti-sway control design 7.5 Simulation results 7.6 Source code
Chapter 7 Conclusions
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