NOISE AND VIBRATION ANALYSIS

Complete guide to signal processing and modal analysis theory, with coverage of practical applications and a plethora of learning tools

Featuring numerous line diagrams and illustrations, the newly revised and updated Second Edition of Noise and Vibration Analysis is a comprehensive and practical guide that combines both signal processing and modal analysis theory with their practical application in noise and vibration analysis. This new edition has been updated with three new chapters covering experimental modal analysis, operational modal analysis, and practical vibration measurements.

Taking a practical learning approach, the text includes exercises that allow the content to be developed in an academic course framework or as supplementary material for private and further study, including multiple choice questions at the end of each chapter. An accompanying website hosts a MATLAB® toolbox, additional problems and examples, and videos.

Written by a highly qualified author with significant experience in the field, Noise and Vibration Analysis covers topics such as:

• Dynamic signals and systems, covering periodic, random, and transient signals, RMS value and power, and the Continuous Fourier Transform
• Time data analysis, covering the sampling theorem, analog, digital, smoothing, and acoustic octave filters, time data differentiation, and FFT-based processing
• Statistics and random processes, covering expected value, errors in estimates, and probability distribution in random theory, and tests of normality and stationarity
• Fundamental mechanics, covering Newton’s laws, alternative quantities for describing motion, frequency response plot formats, and rotating mass

Noise and Vibration Analysis is an excellent resource for researchers and engineers from the automotive, aerospace, mechanical, or electronics industries who work with experimental or analytical vibration analysis and/or acoustics. The text is also valuable for graduate students enrolled in vibration analysis, experimental structural dynamics, or applied signal analysis courses.

Table of Contents

Chapter 1 Introduction

Chapter 2 Dynamic Signals and Systems

Chapter 3 Time Data Analysis

Chapter 4 Statistics and Random Processes

Chapter 5 Fundamental Mechanics

Chapter 6 Modal Analysis Theory

Chapter 7 Transducers for Noise and Vibration Analysis

Chapter 8 Frequency Analysis Theory

Chapter 9 Experimental Frequency Analysis

Chapter 10 Spectrum and Correlation Estimates Using the OFT

Chapter 11 Measurement and Analysis Systems

Chapter 12 Rotating Machinery Analysis

Chapter 13 Single-input Frequency Response Measurements

Chapter 14 Multiple-Input Frequency Response Measurement

Chapter 15 Orthogonalization of Signals

Chapter 16 Experimental Modal Analysis

Chapter 17 Operational Modal Analysis (OMA)

Chapter 18 Advanced Analysis Methods

Chapter 19 Practical Vibration Measurements and Analysis

Appendix A Complex Numbers

Appendix B Logarithmic Diagrams

Appendix C Decibels

About the Author

Anders Brandt is a Professor and Head of the Department of Mechanical and Production Engineering at Aarhus University in Denmark. His research interests include vibration analysis, experimental and operational modal analysis, signal analysis, and system identification. He worked for 20 years in industry in Sweden and abroad, and gave over 250 short-courses on various topics in the field of vibration engineering. He is a member of the Society for Experimental Mechanics and is on the scientific committee for the International Operational Modal Analysis Conference.