Responsive Systems for Active Vibration Control
Structural vibrations have become the critical factor limiting the performance of many engineering systems, typical amplitudes ranging from meters to a few nanometers. Many acoustic nuisances in transportation systems and residential and office buildings are also related to structural vibrations. The active control of such vibrations involves nine orders of magnitude of vibration amplitude, which exerts a profound influence on the technology. Active vibration control is highly multidisciplinary, involving structural vibration, acoustics, signal processing, materials science, and actuator and sensor technology.

Chapters 1-3 of this book provide a state-of-the-art introduction to active vibration control, active sound control, and active vibroacoustic control, respectively. Chapter 4 discusses actuator/sensor placement, Chapter 5 deals with robust control of vibrating structures, Chapter 6 discusses finite element modelling of piezoelectric continua and Chapter 7 addresses the latest trends in piezoelectric multiple-degree-of-freedom actuators/sensors. Chapters 8-12 deal with example applications, including semi-active joints, active isolation and health monitoring. Chapter 13 addresses MEMS technology, while Chapter 14 discusses the design of power amplifiers for piezoelectric actuators.

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Responsive Systems for Active Vibration Control
Structural vibrations have become the critical factor limiting the performance of many engineering systems, typical amplitudes ranging from meters to a few nanometers. Many acoustic nuisances in transportation systems and residential and office buildings are also related to structural vibrations. The active control of such vibrations involves nine orders of magnitude of vibration amplitude, which exerts a profound influence on the technology. Active vibration control is highly multidisciplinary, involving structural vibration, acoustics, signal processing, materials science, and actuator and sensor technology.

Chapters 1-3 of this book provide a state-of-the-art introduction to active vibration control, active sound control, and active vibroacoustic control, respectively. Chapter 4 discusses actuator/sensor placement, Chapter 5 deals with robust control of vibrating structures, Chapter 6 discusses finite element modelling of piezoelectric continua and Chapter 7 addresses the latest trends in piezoelectric multiple-degree-of-freedom actuators/sensors. Chapters 8-12 deal with example applications, including semi-active joints, active isolation and health monitoring. Chapter 13 addresses MEMS technology, while Chapter 14 discusses the design of power amplifiers for piezoelectric actuators.

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Responsive Systems for Active Vibration Control

Responsive Systems for Active Vibration Control

Responsive Systems for Active Vibration Control

Responsive Systems for Active Vibration Control

Overview

Structural vibrations have become the critical factor limiting the performance of many engineering systems, typical amplitudes ranging from meters to a few nanometers. Many acoustic nuisances in transportation systems and residential and office buildings are also related to structural vibrations. The active control of such vibrations involves nine orders of magnitude of vibration amplitude, which exerts a profound influence on the technology. Active vibration control is highly multidisciplinary, involving structural vibration, acoustics, signal processing, materials science, and actuator and sensor technology.

Chapters 1-3 of this book provide a state-of-the-art introduction to active vibration control, active sound control, and active vibroacoustic control, respectively. Chapter 4 discusses actuator/sensor placement, Chapter 5 deals with robust control of vibrating structures, Chapter 6 discusses finite element modelling of piezoelectric continua and Chapter 7 addresses the latest trends in piezoelectric multiple-degree-of-freedom actuators/sensors. Chapters 8-12 deal with example applications, including semi-active joints, active isolation and health monitoring. Chapter 13 addresses MEMS technology, while Chapter 14 discusses the design of power amplifiers for piezoelectric actuators.

Product Details

ISBN-13: 9781402008986
Publisher: Springer Netherlands
Publication date: 11/30/2002
Series: NATO Science Series II: Mathematics, Physics and Chemistry , #85
Edition description: Softcover reprint of the original 1st ed. 2002
Pages: 394
Product dimensions: 6.30(w) x 9.45(h) x 0.03(d)

Table of Contents

An Introduction to Active Vibration Control.- Active Sound Control.- Active VibroAcoustic Control.- Actuators and Sensors in Structural Dynamics.- Robust Control of Vibrating Structures.- Finite Element Models for Piezoelectric Continua.- Latest Trends in the Development of Piezoelectric Multi-degree-of-freedom Actuators/Sensors.- Damping Control in Systems Assembled by Semi-Active Joints.- Piezoelectric Stack Actuator: FE-Modeling and Application for Vibration Isolation.- Active Vibratiion Control of a Car Body Based on Experimentally Evaluated Modal Parameters.- PVDF-Transducers for Structural Health Monitoring.- Vibro-Isolation of Sensitive Equipment.- An Approach to Smart Structure Design using MEMS Technology.- Power Amplifiers for Piezoelectric Actuators.
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