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Probability, random variables, and random signal principles / Peyton Z. Peebles, Jr.

By: Peebles, Peyton Z.
Series: McGraw-Hill series in electrical and computer engineering. Publisher: Boston, Mass. : Singapore : McGraw Hill ; McGraw-Hill Book Co., 2001Edition: 4th ed., Int.ed.Description: xviii, 462 p. ; 25 cm.ISBN: 0071181814.Subject(s): Probabilities | Random variables | Signal theory (Telecommunication)DDC classification: 519.2
Contents:
Preface. - 1. Probability. - 2. The Random Variable. - 3. Operations on One Random Variable - Expectation. - 4. Multiple Random Variables. - 5. Operations on Multiple Random Variables. - 6. Random Processes - Temporal Characteristics. - 7. Random Processes - Spectral Characteristic. - 8. Linear Systems with Random Inputs. - 9. Optimum Linear Systems. - 10. Some Practical Applications of the Theory. - Appendix A. Review of the Impulse Function.- Appendix B. Gaussian Distribution Function. - Appendix C. Useful Mathematical Quantities. - Appendix D. Review of Fourier Transforms. - Appendix E Table of Useful Fourier Transforms. - Appendix F. Some Probability Densities and Distributions. - Appendix G. Some Mathematical Topics of Interest. - Bibliography. - Index.
Summary: [This book] offers clear and concise coverage of the theories of probability, random variables, and random signals, including the response of linear networks to random waveforms. The book's approach, emphasizing the fundamental principles, corresponds to the standards of today's electrical engineering curriculum which must train engineers to account for noise and random signals in systems. ... Practical applications are a key feature of this edition and include discussions of practical noise (noise figures and noise temperatures), a special chapter on applications of the theory, and a chapter devoted to optimum networks when noise is present (matched filters and Wiener filters). - Back cover.
Item type Current location Call number Copy number Status Notes Date due Barcode Remark
Main Collection Taylor's Library-TU
519.2 PEE (Browse shelf) 1 Available SLASx,05000,03,GR 5000003209
Main Collection TC External Storage
519.2 PEE (Browse shelf) 1 Available GENxx,GENxx,03,GR 5000074050 Please fill up online form at https://taylorslibrary.taylors.edu.my/services/external_storage1

Preface. - 1. Probability. - 2. The Random Variable. - 3. Operations on One Random Variable - Expectation. - 4. Multiple Random Variables. - 5. Operations on Multiple Random Variables. - 6. Random Processes - Temporal Characteristics. - 7. Random Processes - Spectral Characteristic. - 8. Linear Systems with Random Inputs. - 9. Optimum Linear Systems. - 10. Some Practical Applications of the Theory. - Appendix A. Review of the Impulse Function.- Appendix B. Gaussian Distribution Function. - Appendix C. Useful Mathematical Quantities. - Appendix D. Review of Fourier Transforms. - Appendix E Table of Useful Fourier Transforms. - Appendix F. Some Probability Densities and Distributions. - Appendix G. Some Mathematical Topics of Interest. - Bibliography. - Index.

[This book] offers clear and concise coverage of the theories of probability, random variables, and random signals, including the response of linear networks to random waveforms. The book's approach, emphasizing the fundamental principles, corresponds to the standards of today's electrical engineering curriculum which must train engineers to account for noise and random signals in systems. ... Practical applications are a key feature of this edition and include discussions of practical noise (noise figures and noise temperatures), a special chapter on applications of the theory, and a chapter devoted to optimum networks when noise is present (matched filters and Wiener filters). - Back cover.