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Random Processes with Applications to Circuits and Communications de Bernard C. Levy

Random Processes with Applications to Circuits and Communications

Autor Bernard C. Levy
en Limba Engleză Paperback – 28 sep 2020
This textbook is based on 20 years of teaching a graduate-level course in random processes to a constituency extending beyond signal processing, communications, control, and networking, and including in particular circuits, RF and optics graduate students.  In order to accommodate today’s circuits students’ needs to understand noise modeling, while covering classical material on Brownian motion, Poisson processes, and power spectral densities, the author has inserted discussions of thermal noise, shot noise, quantization noise and oscillator phase noise. At the same time, techniques used to analyze modulated communications and radar signals, such as the baseband representation of bandpass random signals, or the computation of power spectral densities of a wide variety of modulated signals, are presented.  This book also emphasizes modeling skills, primarily through the inclusion of long problems at the end of each chapter, where starting from a description of the operation of a system, a model is constructed and then analyzed.       
  • Provides semester-length coverage of random processes, applicable to the analysis of electrical and computer engineering systems;
  • Designed to be accessible to students with varying backgrounds in undergraduate mathematics and engineering;
  • Includes solved examples throughout the discussion, as well as extensive problem sets at the end of every chapter;
  • Develops and reinforces student’s modeling skills, with inclusion of modeling problems in every chapter;
  • Solutions for instructors included.

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Specificații

ISBN-13: 9783030222994
ISBN-10: 3030222993
Pagini: 464
Ilustrații: XIII, 464 p. 112 illus.
Dimensiuni: 178 x 254 mm
Greutate: 0.83 kg
Ediția:1st ed. 2020
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland

Cuprins

Introduction.- Probability and Random Variables.- Convergence and Limit Theorems.- Specification of Random Processes.- Discrete-Time Finite Markov Chains.- Wiener Process and White Gaussian Noise.- Poisson Process and Shot Noise.- Processing and Frequency Analysis of Random Signals.- Ergodicity.- Scalar Markov Diffusions and Ito Calculus.- Wiener Filtering.- Quantization Noise and Dithering.- Phase Noise in Autonomous Oscillators.

Notă biografică

Bernard C. Levy's education and professional background includes the following:

Education
PhD in Electrical Engineering, Stanford University, 1979
Ingenieur Civil des Mines, Ecole des Mines, Paris, France, 1974

Professional Experience
Associate Professor and then Professor, University of California, Davis, Dept. of Electrical and Computer Engineering, 1987 to present.
Assistant Professor and then Associate Professor, Massachusetts, Institute of Technology, EECS Dept., 1979-1987 

Textul de pe ultima copertă

This textbook is based on 20 years of teaching a graduate-level course in random processes to a constituency extending beyond signal processing, communications, control, and networking, and including in particular circuits, RF and optics graduate students.  In order to accommodate today’s circuits students’ needs to understand noise modeling, while covering classical material on Brownian motion, Poisson processes, and power spectral densities, the author has inserted discussions of thermal noise, shot noise, quantization noise and oscillator phase noise. At the same time, techniques used to analyze modulated communications and radar signals, such as the baseband representation of bandpass random signals, or the computation of power spectral densities of a wide variety of modulated signals, are presented.  This book also emphasizes modeling skills, primarily through the inclusion of long problems at the end of each chapter, where starting from a description of the operationof a system, a model is constructed and then analyzed.       
  • Provides semester-length coverage of random processes, applicable to the analysis of electrical and computer engineering systems;
  • Designed to be accessible to students with varying backgrounds in undergraduate mathematics and engineering;
  • Includes solved examples throughout the discussion, as well as extensive problem sets at the end of every chapter;
  • Develops and reinforces student’s modeling skills, with inclusion of modeling problems in every chapter;
  • Solutions for instructors included.

Caracteristici

Provides semester-length coverage of random processes, applicable to the analysis of electrical and computer engineering systems Designed to be accessible to students with varying backgrounds in undergraduate mathematics and engineering Includes solved examples throughout the discussion, as well as extensive problem sets at the end of every chapter Develops and reinforces student’s modeling skills, with inclusion of modeling problems in every chapter Solutions for instructors included Request lecturer material: sn.pub/lecturer-material