Control of Noise and Structural Vibration [electronic resource] : A MATLAB®-Based Approach / by Qibo Mao, Stanislaw Pietrzko.

By: Mao, Qibo [author.]Contributor(s): Pietrzko, Stanislaw [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Publisher: London : Springer London : Imprint: Springer, 2013Description: XII, 369 p. 332 illus., 107 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781447150916Subject(s): Engineering | Acoustics | Mechanical engineering | Vibration | Engineering | Vibration, Dynamical Systems, Control | Control | Acoustics | Structural MechanicsAdditional physical formats: Printed edition:: No titleDDC classification: 620 LOC classification: TA355TA352-356Online resources: Click here to access online
Contents:
Introduction -- Vibration and Sound Radiation -- Introduction Examples on Control of Sound and Vibration -- Distributed Transducers by Using Smart Materials -- Feedback Control -- Positive Position Feedback Control -- Semi-active Control Using Helmholtz Resonators -- Shunt Piezoelectric Circuits.
In: Springer eBooksSummary: Control of Noise and Structural Vibration presents a MATLAB®-based approach to solving the problems of undesirable noise generation and transmission by structures and of undesirable vibration within structures in response to environmental or operational forces. The fundamentals of acoustics, vibration and coupling between vibrating structures and the sound fields they generate are introduced including a discussion of the finite element method for vibration analysis. Following this, the treatment of sound and vibration control begins, illustrated by example systems such as beams, plates and double plate structures. Sensor and actuator placement is explained as is the idea of modal sensor–actuators. The design of appropriate feedback systems includes consideration of basic stability criteria and robust active structural acoustic control. Single and multi-mode positive position feedback (PPF) control systems are also described in the context of loudspeaker–duct model with non-collocated loudspeaker–microphones. The design of various components is detailed including the analogue circuit for PPF, adaptive (semi-active) Helmholtz resonators and shunt piezoelectric circuits for noise and vibration suppression. The text makes extensive use of MATLAB® examples and these can be simulated using files available for download from the book’s webpage at springer.com. End-of-chapter exercises will help readers to assimilate the material as they progress through the book. Control of Noise and Structural Vibration will be of considerable interest to the student of vibration and noise control and also to academic researchers working in the field. Its tutorial features will help practitioners who wish to update their knowledge with self-study.  
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Introduction -- Vibration and Sound Radiation -- Introduction Examples on Control of Sound and Vibration -- Distributed Transducers by Using Smart Materials -- Feedback Control -- Positive Position Feedback Control -- Semi-active Control Using Helmholtz Resonators -- Shunt Piezoelectric Circuits.

Control of Noise and Structural Vibration presents a MATLAB®-based approach to solving the problems of undesirable noise generation and transmission by structures and of undesirable vibration within structures in response to environmental or operational forces. The fundamentals of acoustics, vibration and coupling between vibrating structures and the sound fields they generate are introduced including a discussion of the finite element method for vibration analysis. Following this, the treatment of sound and vibration control begins, illustrated by example systems such as beams, plates and double plate structures. Sensor and actuator placement is explained as is the idea of modal sensor–actuators. The design of appropriate feedback systems includes consideration of basic stability criteria and robust active structural acoustic control. Single and multi-mode positive position feedback (PPF) control systems are also described in the context of loudspeaker–duct model with non-collocated loudspeaker–microphones. The design of various components is detailed including the analogue circuit for PPF, adaptive (semi-active) Helmholtz resonators and shunt piezoelectric circuits for noise and vibration suppression. The text makes extensive use of MATLAB® examples and these can be simulated using files available for download from the book’s webpage at springer.com. End-of-chapter exercises will help readers to assimilate the material as they progress through the book. Control of Noise and Structural Vibration will be of considerable interest to the student of vibration and noise control and also to academic researchers working in the field. Its tutorial features will help practitioners who wish to update their knowledge with self-study.  

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