Intelligent Vibration Control in Civil Engineering Structures
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Intelligent Vibration Control in Civil Engineering Structures provides readers with an all-encompassing view of the theoretical studies, design methods, real-world implementations, and applications relevant to the topic The book focuses on design and property tests on different intelligent control devices, innovative control strategies, analysis examples for structures with intelligent control devices, and designs and tests for intelligent controllers.
Key Features
- Focuses on the principles, methods, and applications of intelligent vibration control in civil engineering
- Covers intelligent control, including active and semi-active control
- Includes comprehensive contents, such as design and properties of different intelligent control devices, control strategies, and dynamic analysis, intelligent controller design, numerical examples, and experimental data
Readership
Electrical and Electronic Engineers; Mechanical Engineers; Computer Engineers; Intelligent Systems specialists
Table of Contents
Chapter 1. Introduction
- Abstract
- 1.1 Earthquake and Wind Disasters
- 1.2 Structure Vibration Control
Chapter 2. Intelligent Control Strategies
- Abstract
- 2.1 Equations of Motion of Intelligent Control System
- 2.2 Classical Linear Optimal Control Algorithm
- 2.3 Pole Assignment Method
- 2.4 Instantaneous Optimal Control Algorithm
- 2.5 Independent Mode Space Control
- 2.6 H∞ Feedback Control
- 2.7 Sliding Mode Control
- 2.8 Optimal Polynomial Control
- 2.9 Fuzzy Control
- 2.10 Neural Network Control
- 2.11 Particle Swarm Optimization Control
- 2.12 Genetic Algorithm
Chapter 3. Active Intelligent Control
- Abstract
- 3.1 Principles and Classification
- 3.2 Active Mass Control System
- 3.3 Active Tendon System
- 3.4 Other Active Control System
Chapter 4. Semiactive Intelligent Control
- Abstract
- 4.1 Principles and Classification
- 4.2 MR Dampers
- 4.3 ER Dampers
- 4.4 Piezoelectricity Friction Dampers
- 4.5 Semiactive Varied Stiffness Damper
- 4.6 Semiactive Varied Damping Damper
- 4.7 MRE Device
Chapter 5. Design and Parameters Optimization on Intelligent Control Devices
- Abstract
- 5.1 Design and Parameters Optimization on MR Damper
- 5.2 Design and Parameters Optimization of MRE Device
- 5.3 Design and Parameters Optimization on Active Control
Chapter 6. Design and Study on Intelligent Controller
- Abstract
- 6.1 Design of Intelligent Controller
- 6.2 Experimental Study on Intelligent Controller
Chapter 7. Dynamic Response Analysis of the Intelligent Control Structure
- Abstract
- 7.1 Elastic Analysis
- 7.2 Elasto-Plastic Analysis Method
- 7.3 Dynamic Response Analysis by SIMULINK
Chapter 8. Example and Program Analysis
- Abstract
- 8.1 Dynamic Analysis on Frame Structure With MR Dampers
- 8.2 Dynamic Analysis on Long-Span Structure With MR Dampers
- 8.3 Dynamic Analysis on Platform With MRE Devices
- 8.4 SIMULINK Analysis Example
- 8.5 Particle Swarm Optimization Control Example
- 8.6 Active Control Example
Product details
- No. of pages: 278
- Language: English
- Copyright: © Academic Press 2016
- Published: November 2, 2016
- Imprint: Academic Press
- eBook ISBN: 9780124055117
- Hardcover ISBN: 9780124058743
About the Authors
Zhao-Dong Xu
Civil Engineering School, Southeast University, Si-Pai Lou 2#, Nanjing, 210096, China
Affiliations and Expertise
Civil Engineering School, Southeast University, Nanjing, China
Ying-Qing Guo
Department of Mechanical and Aerospace Engineering, North Carolina State University
Affiliations and Expertise
Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, NC, USA
Jun-Tao Zhu
Affiliations and Expertise
Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, NC, USA
Fei-Hong Xu
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