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Digital Communication Systems Using
MATLAB® and Simulink®
Dennis Silage
silage@temple.edu
Electrical and Computer Engineering
Temple University

Philadelphia, PA USA
ISBN 978-1-58909-621-9 © 2009
Bookstand Publishing
Soft Cover, 199 Pages
with Archived Project Files


Communication_Systems_Using_MATLAB_and_Sim
Digital Communication Systems using MATLAB® and Simulink® utilizes a
communication systems simulator by The MathWorksTM () with advanced
capabilities for analysis and design. The text serves as an introduction to simulation for
undergraduate students in a contemporary course, where it provides the opportunity to go beyond
the lecture or the hardware laboratory. Graduate students in a rigorous first course will find the
MATLAB and Simulink simulation environment an adjunct to their understanding of the concepts
of digital communication systems, facilitating their projects and thesis. Professionals, once
having had a course primarily in analog communications, will be able to acquaint themselves
with modern digital communications in the MATLAB and Simulink simulation environment. An
extensive discussion of the precepts of digital communications is coupled with simulation
models and observed results. With clear and concise descriptions this is an essential guide for
anyone wishing to fully utilize MATLAB and Simulink in the simulation of digital
communication systems.

M-ary ASK, Gray Coded, Bandpass Digital Communication System Simulink Model

KEY FEATURES
•
A complete description of the MATLAB and Simulink digital communication system
simulation environment suitable for undergraduate and graduate students and professionals
•
Describes the analysis and design of modern digital communication systems with noise
and non-linearities using simulation models without analytical equations
•
Simulation results are used to illustrate and validate the concepts of digital
communications with the complete development of the correlation receiver in AWGN and the
power spectral density and bandwidth of modulated signals
•
Provides a translation of digital communication system block diagrams, a common
occurrence in textbooks, to the MATLAB and Simulink simulation environment with a complete
description of the parameters
•
Facilitates the what-ifs of digital communication system design by rapidly changing
simulation parameters
•
Do...
KEY FEATURES
A complete description of the MATLAB and Simulink digital communication system
simulation environment suitable for undergraduate and graduate students and professionals
Describes the analysis and design of modern digital communication systems with noise
and non-linearities using simulation models without analytical equations
Simulation results are used to illustrate and validate the concepts of digital
communications with the complete development of the correlation receiver in AWGN and the
power spectral density and bandwidth of modulated signals
Provides a translation of digital communication system block diagrams, a common
occurrence in textbooks, to the MATLAB and Simulink simulation environment with a complete
description of the parameters
Facilitates the what-ifs of digital communication system design by rapidly changing
simulation parameters
Downloadable MATLAB and Simulink model files, instructional and reference materials,
undergraduate laboratories and graduate projects are available on the author’s website at
http://astro.temple.edu/~silage
TABLE OF CONTENTS
Chapter1 Communication simulation techniques, MATLAB and Simulink blocksets and displays,
simulation of analog DSB-AM
Chapter 2 Baseband modulation and demodulation, binary and M-ary PAM, partial response
signaling, optimum receiver in AWGN, BER, delta modulation, eye diagrams
Chapter 3 Bandpass modulation and demodulation, binary and M-ary ASK, FSK and PSK,
QAM, DPSK, coherent and noncoherent demodulation in AWGN, BER, constellation plots
Chapter 4 Sampling and quantization of baseband and bandpass signals, companding, PCM,
DPCM, line codes
AUTHOR BIOGRAPHY
Dennis Silage (Philadelphia, PA) is a Professor in the Department of Electrical and Computer
Engineering at Temple University. He has a Ph.D. in Electrical Engineering from the University
of Pennsylvania. He is the author of Digital Communication Systems Using SystemVue
(Cengage Publishing, 2006) and Embedded System Design Using Programmable Gate Arrays
(Bookstand Publishing, 2007). He was awarded the National Outstanding Teaching Award from
the American Society for Engineering Education in 2007 for his pedagogical innovations in
undergraduate analog and digital communications. He is a senior member of the IEEE and
director of the System Chip Design Center http://www.temple.edu/scdc, which researches the
application of Xilinx field programmable gate arrays in digital signal processing and digital
communication.
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