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Informationen zum Autor ROY M. HOWARD received his PhD from the University of Western Australia and is a senior lecturer in the School of Electrical and Computer Engineering at Curtin University of Technology, Perth, Australia. His research interests include low noise amplifier design, stochastic modeling, l/f noise, nonlinear systems, and nonlinear electronics. He has published several papers relevant to the material in the book. Klappentext * Describes the leading techniques for analyzing noise.* Discusses methods that are applicable to periodic signals, aperiodic signals, or random processes over finite or infinite intervals.* Provides readers with a useful reference when designing or modeling communications systems. Zusammenfassung * Describes the leading techniques for analyzing noise. * Discusses methods that are applicable to periodic signals, aperiodic signals, or random processes over finite or infinite intervals. * Provides readers with a useful reference when designing or modeling communications systems. . Inhaltsverzeichnis Preface. About the Author. Introduction. Background: Signal and System Theory. The Power Spectral Density. Power Spectral Density Analysis. Power Spectral Density of Standard Random Processes--Part 1. Power Spectral Density of Standard Random Processes--Part 2. Memoryless Transformations of Random Processes. Linear System Theory. Principles of Low Noise Electronic Design. Notation. References. Index.
List of contents
Preface.
About the Author.
Introduction.
Background: Signal and System Theory.
The Power Spectral Density.
Power Spectral Density Analysis.
Power Spectral Density of Standard Random Processes--Part 1.
Power Spectral Density of Standard Random Processes--Part 2.
Memoryless Transformations of Random Processes.
Linear System Theory.
Principles of Low Noise Electronic Design.
Notation.
References.
Index.
