Random Vibrations

Random Vibrations

Theory and Practice

By Paul H. Wirsching, Thomas L, Paez and Keith Ortiz

$39.95

Publication Date: 12th May 2006

The most comprehensive text and reference available on the study of random vibrations, this book was designed for graduate students and for mechanical, structural, and aerospace engineers. Random Vibrations: Theory and Practice encompasses all the key topics, including fundamental background material, random vibration development with applications to design, and random signal analysis. The broad scope of this text makes it useful both as a clear and thorough introduction to the field and as an authoritative reference for practitioners who wish to investigate special topics.
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Format: Paperback
117 in stock
The most comprehensive text and reference available on the study of random vibrations, this book was designed for graduate students and for mechanical, structural, and aerospace engineers. Random Vibrations: Theory and Practice encompasses all the key topics, including fundamental background material, random vibration development with applications to design, and random signal analysis. The broad scope of this text makes it useful both as a clear and thorough introduction to the field and as an authoritative reference for practitioners who wish to investigate special topics.
In ... Read More
Description
The most comprehensive text and reference available on the study of random vibrations, this book was designed for graduate students and for mechanical, structural, and aerospace engineers. Random Vibrations: Theory and Practice encompasses all the key topics, including fundamental background material, random vibration development with applications to design, and random signal analysis. The broad scope of this text makes it useful both as a clear and thorough introduction to the field and as an authoritative reference for practitioners who wish to investigate special topics.
In addition to coverage of background topics in probability, statistics, and random processes, this text develops methods for analyzing and controlling random vibrations. It explains how to avoid fatigue and fracture brought on by random vibration stresses and describes how to analyze random signals obtained for field and test measurements. Detailed examples employ random signals taken from actual random sources, and an abundance of figures, tables and charts support and clarify the text.

Reprint of the John Wiley & Sons, New York, 1995 edition.
Details
  • Price: $39.95
  • Pages: 464
  • Publisher: Dover Publications
  • Imprint: Dover Publications
  • Series: Dover Books on Physics
  • Publication Date: 12th May 2006
  • Trim Size: 5.5 x 8.5 in
  • ISBN: 9780486450155
  • Format: Paperback
  • BISACs:
    SCIENCE / Physics / General
Author Bio
Paul H. Wirsching is Professor Emeritus of Aerospace and Mechanical Engineering at the University of Arizona. Thomas L. Paez and Keith Ortiz are affiliated with Sandia National Laboratories of Albuquerque, New Mexico.
Table of Contents
1. Introduction
2. Random Variables
3. Random Processes in Time Domain
4. Fourier Transforms
5. Random Processes in Frequency Domain
6. Statistical Properties of Random Processes
7. Vibration of Single-Degree-of-Freedom Systems
8. Response of Single-Degree-of-Freedom Linear Systems to Random Environments
9. Random Vibration of Multi-Degree-of-Freedom Systems
10. Design to Avoid Structural Failures Due to Random Vibration
11. Introduction to Parameter Estimation
12. Time-Domain Estimation of Random Process Parameters
13. Discreet Fourier Transform
14. Frequency-Domain Estimation of Random Processes
Appendix A. Convergence of Random Processes
Appendix B. Integrals of Transfer Functions
Appendix C. Formulas for Approximate Evaluation of Some Integrals Useful in Probability
Appendix D. Some Fast Fourier Transform Programs
Appendix E. Tables
References
Index
The most comprehensive text and reference available on the study of random vibrations, this book was designed for graduate students and for mechanical, structural, and aerospace engineers. Random Vibrations: Theory and Practice encompasses all the key topics, including fundamental background material, random vibration development with applications to design, and random signal analysis. The broad scope of this text makes it useful both as a clear and thorough introduction to the field and as an authoritative reference for practitioners who wish to investigate special topics.
In addition to coverage of background topics in probability, statistics, and random processes, this text develops methods for analyzing and controlling random vibrations. It explains how to avoid fatigue and fracture brought on by random vibration stresses and describes how to analyze random signals obtained for field and test measurements. Detailed examples employ random signals taken from actual random sources, and an abundance of figures, tables and charts support and clarify the text.

Reprint of the John Wiley & Sons, New York, 1995 edition.
  • Price: $39.95
  • Pages: 464
  • Publisher: Dover Publications
  • Imprint: Dover Publications
  • Series: Dover Books on Physics
  • Publication Date: 12th May 2006
  • Trim Size: 5.5 x 8.5 in
  • ISBN: 9780486450155
  • Format: Paperback
  • BISACs:
    SCIENCE / Physics / General
Paul H. Wirsching is Professor Emeritus of Aerospace and Mechanical Engineering at the University of Arizona. Thomas L. Paez and Keith Ortiz are affiliated with Sandia National Laboratories of Albuquerque, New Mexico.
1. Introduction
2. Random Variables
3. Random Processes in Time Domain
4. Fourier Transforms
5. Random Processes in Frequency Domain
6. Statistical Properties of Random Processes
7. Vibration of Single-Degree-of-Freedom Systems
8. Response of Single-Degree-of-Freedom Linear Systems to Random Environments
9. Random Vibration of Multi-Degree-of-Freedom Systems
10. Design to Avoid Structural Failures Due to Random Vibration
11. Introduction to Parameter Estimation
12. Time-Domain Estimation of Random Process Parameters
13. Discreet Fourier Transform
14. Frequency-Domain Estimation of Random Processes
Appendix A. Convergence of Random Processes
Appendix B. Integrals of Transfer Functions
Appendix C. Formulas for Approximate Evaluation of Some Integrals Useful in Probability
Appendix D. Some Fast Fourier Transform Programs
Appendix E. Tables
References
Index