描述
开 本: 16开纸 张: 胶版纸包 装: 平装-胶订是否套装: 否国际标准书号ISBN: 9787550915480
technology and recent progress, which is dividedinto eight chapters. The first
chapter introduced the development status and the present key technologies
ofpiezoelectric smart structure vibration control. The second chapter focused on
Piezoelectric Smart StructureDynamics using traveling wave method. The third
chapter introduced the location optimized problems ofpiezoelectric
sensor/actuator for Piezoelectric Intelligent Structure. The fourth chapter
described the principle ofadaptive filter and LMS algorithm. The fifth chapter
studied fiher-X adaptive control algorithm for active vibrationcontrol. Chapter
six presented the Multiple Input Multiple Output Random Disturbance Control.
Chapter sevenintroduced optimal control strategy for Multi-Input Multi-Output
(MIMO) systems. Chapter eight presented thebuilding of intelligent structural
vibration control platform, experiments were analyzed for structural
vibrationcontrol methods studied in this book. 吕宽州编*的《智能结构振动主动控制(英文版)》is
referred to vast scientific and technological personnel working on control
science andengineering, aerospace engineering, manufacturing and automation,
materials science and engineering, it can beused as a study book for the
graduate and senior undergraduate in the above profession.
Foreword
Chapter 1
Introduction of Vibration Control for Smart Structure
1.1 Introduction
1.2 Research Status of Smart Material
Structure
1.3 Advances of Active Vibration in
Intelligent Structure
1.4 Overview of Piezoelectric Smart Structure
Active Damping
1.5 Progress and Status of Adaptive
Feedforward Control before Filtering
Chapter 2
Dynamic Analysis of Piezoelectric Smart Structure
2.1 Overview of dynamic Modeling of
Piezoelectric Smart Structures
2.2 Piezoelectric Actuation Principle
2.3 Piezoelectric Intelligent Beam Dynamics
2.4 Kinetic Analysis of Piezoelectric
Intelligent Frame Structure
2.5 Summary
Chapter 3
Optimal Configuration of Piezoelectric Actuator and Sensor
3.1 Introduction
3.2 The Application of Genetic Algorithm in
Optimal Placement of Sensors and Actuators
3.3 Optimization of the Objective Function
3.4 Sensor Actuator Optimal Configuration
3.5 Optimal Configuration of Piezoelectric
Sensor Actuator
Chapter Adaptive
Filter Control Strategies
4.1 Feedback Control Strategies
4.2 Feedforward Control Strategies
4.3 The Basic Principle of Adaptive Filter
4.4 Least Mean Square Algorithm
4.5 Discuss the Convergence Condition
Chapter 5
Filter-XLMS Adaptive Filter Control Algorithm
5.1 FXLMS Algorithm Overview
5.2 FXLMS Algorithm Flow Analysis
5.3 Simulation Experiment and Analysis
Chapter 6
Multiple Input Multiple Output Random Disturbance Control
6.1 Optimal Control of Random Disturbance
6.2 Adaptive Control of Random Disturbance
6.3 Fast Exact Filtered Reference Approach
6.4 A Short Comparison of Adaptive Schemas
Chapter 7
Optimal Control for Flexible Structure
7.1 Introduction
7.2 Quadratic Integral
7.3 Deterministic LQR
7.4 Stochastic Response to A White Noise
7.5 Stochastic LQR
7.6 Asymptotic Behavior of the Closed-Loop
7.7 Prescribed Degree of Stability
7.8 Gain and Phase Margins of the LQR
7.9 Full State Observer
7.10 Kalman-Bucy Filter (KBF)
7.11 Linear Quadratic Gaussian (LQG)
7.12 Duality
7.13 Spillover
7.14 Loop Transfer Recovery (LTR)
7.15 Integral Control with State Feedback
7.16 Frequency Shaping
Chapter 8
Construction of Testing Platform and Experimental Analysis
8.1 Large Flexible Plate Tectonic Model and
Finite Element Analysis
8.2 Arrangement of Sensor / Drive Network
8.3 Adaptive Active Vibration Control System
8.4 Numerical Simulation and Experimental
Results
8.5 Experiment Validation and Analysis
References
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