Raczka / Sibielak | Active Noise and Vibration Control | Buch | 978-3-03835-769-8 | sack.de

Buch, Englisch, 270 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 460 g

Raczka / Sibielak

Active Noise and Vibration Control

This book is a result of scientific meeting of people working on active noise and vibration control methods and problems. The control of noise and vibration has been always proved to be a difficult task and in many cases it is not feasible. For many years, passive, active and semi-active techniques have been considered and developed. Flexible isolation systems or structural damping, control of suspension parameter or generating active force are used for vibration and noise control. The most important technics of vibration mitigation are active methods so the book collects papers as a contribution to discussion.
Erscheinungsjahr 2016
ISBN: 978-3-03835-769-8
Verlag: Trans Tech Publications

This book is a result of scientific meeting of people working on active noise and vibration control methods and problems. The control of noise and vibration has been always proved to be a difficult task and in many cases it is not feasible. For many years, passive, active and semi-active techniques have been considered and developed. Flexible isolation systems or structural damping, control of suspension parameter or generating active force are used for vibration and noise control. The most important technics of vibration mitigation are active methods so the book collects papers as a contribution to discussion.

Buch, Englisch, 270 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 460 g

ISBN: 978-3-03835-769-8
Verlag: Trans Tech Publications


This book is a result of scientific meeting of people working on active noise and vibration control methods and problems. The control of noise and vibration has been always proved to be a difficult task and in many cases it is not feasible. For many years, passive, active and semi-active techniques have been considered and developed. Flexible isolation systems or structural damping, control of suspension parameter or generating active force are used for vibration and noise control. The most important technics of vibration mitigation are active methods so the book collects papers as a contribution to discussion.
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Weitere Infos & Material


Preface
Chapter 1: Active Noise Control
A Higher-Order Spectra Based Method of On-Line Secondary Path Model Identification for Active Noise Control Systems
Active Casing Controlled with a Partial-Update Neural Network
Active Rejection of Harmonic Disturbances with Nonstationary Harmonically Related Frequencies Using Varying-Sampling-Time LPV Control
Employment of Double-Panel Casing for Active Reduction of Device Noise
The System for Active Control of Sound Transmission through a Window Panel – The Concept and Simulation Results
Topology Optimization of a Bounded Space for a Vibroacoustical Problem in a Low Frequency
Vibration Measurements for Active Noise Control in a HVAC System with a Passive Absorber
Virtual Microphone Control for an Active Noise-Cancelling Casing
Chapter 2: Active Vibration Control
Extended Kalman Filter in 2S1 Tracked Vehicle System with Hybrid Control
Effectiveness of the Sliding Mode Control in a Two Coupled Discontinuous Dynamical Systems with Dry Friction
A Novel Backstepping Approach for the Attenuation of Torsional Oscillations in Drill Strings
A Comparison of Active and Semi-Active Sliding Mode Controllers Applied in Vibration Reduction Systems
Semi-Active Method of Motion Stabilization Applied to Mechanical System with the Constant Reaction Force Vibroisolation (CRF) – Model Study
Semi-Active Reduction of Vibrations of Periodically Oscillating System
Reduction Methods of Structure Models for Control System Purposes
Optimal Controller for Active Vehicle Suspension Disturbed by Sinusoidal Signals
The Application of xPC Target Platform for a Circular Plate Vibration Control
An Analysis of Axial Vibration in Face Packing Seals
Chapter 3: Methods of Measurements, Modeling and Identification
Balance Maintaining by Human
Hybrid Simulation of Tracked Vehicle Suspension on Real-Time Environment
Identification of Kinematic Excitation Function by the Modal Coordinates Estimation of the System's Dynamics
Output-Only Identification of Vibratory Machine Suspension Parameters under Exploitational Conditions
Rock Bolts Health Monitoring Using Self-Excited Phenomenon
Shaping the Dynamic Characteristics of Military Special Vehicles
Study of Flow-Induced Vibration Phenomena in Automotive Shock Absorbers
Analysis of Selected Pressure Signal Descriptors Used to Control Combustion Engine
Chapter 4: Smart Materials and Devices
Design and Pre-Implementation of Micro-Movements Sensor with Magnetic Shape Memory Material
Discrete Preisach Model of a Shape Memory Alloy Actuator
Magnetic Shape Memory Alloys Modelling and Pneumatic Applications
Piezoelectric Generators in the Energy Harvesting Systems
Experimental and Simulation Investigations of the Cantilever Beam Energy Harvester


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