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9780534371739

Contemporary Communication Systems Using Matlab

by ;
  • ISBN13:

    9780534371739

  • ISBN10:

    0534371736

  • Edition: 1st
  • Format: Paperback
  • Copyright: 1999-11-05
  • Publisher: CL Engineering
  • View Upgraded Edition
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List Price: $79.00

Summary

This supplement to any standard communication systems text is one of the first books to successfully integrate the use of MATLAB? in the study of communication systems concepts and problems. It has been developed for instructors and students who wish to make use of MATLAB? as an integral part of their study. The former will find the means by which to use MATLAB? as a powerful tool to motivate students and illustrate essential theory without having to customize the applications themselves; the latter will find relevant problems quickly and easily. The book includes numerous MATLAB?-based simulations and examples of communication systems, while providing a good balance of theory and hands-on computer experience. This Updated Printing revises the book and MATLAB? files (available for downloading from the Brooks/Cole Bookware Companion Resource Center Web Site) to MATLAB? V5.

Table of Contents

Signals and Linear Systems
1(46)
Preview
1(1)
Fourier Series
1(16)
Periodic Signals and LTI Systems
12(5)
Fourier Transforms
17(15)
Sampling Theorem
22(6)
Frequency-Domain Analysis of LTI Systems
28(4)
Power and Energy
32(3)
Lowpass Equivalent of Bandpass Signals
35(12)
Random Processes
47(34)
Preview
47(1)
Generation of Random Variables
47(5)
Gaussian and Gauss-Markov Processes
52(7)
Power Spectrum of Random Processes and White Processes
59(5)
Linear Filtering of Random Processes
64(7)
Lowpass and Bandpass Processes
71(10)
Analog Modulation
81(61)
Preview
81(1)
Amplitude Modulation (AM)
81(23)
DSB-AM
82(10)
Conventional AM
92(7)
SSB-AM
99(5)
Demodulation of AM Signals
104(21)
DSB-AM Demodulation
105(7)
SSB-AM Demodulation
112(5)
Conventional AM Demodulation
117(8)
Angle Modulation
125(17)
Analog-to-Digital Conversion
142(33)
Preview
142(1)
Measure of Information
143(6)
Noiseless Coding
144(5)
Quantization
149(9)
Scalar Quantization
149(9)
Pulse-Code Modulation
158(17)
Uniform PCM
158(6)
Nonuniform PCM
164(11)
Baseband Digital Transmission
175(53)
Preview
175(1)
Binary Signal Transmission
175(22)
Optimum Receiver for the AWGN Channel
176(7)
Monte Carlo Simulation of a Binary Communication System
183(3)
Other Binary Signal Transmission Methods
186(9)
Signal Constellation Diagrams for Binary Signals
195(2)
Multiamplitude Signal Transmission
197(12)
Signal Waveforms with Four Amplitude Levels
198(1)
Optimum Receiver for the AWGN Channel
199(6)
Signal Waveforms with Multiple Amplitude Levels
205(4)
Multidimensional Signals
209(19)
Multidimensional Orthogonal Signals
209(9)
Biorthogonal Signals
218(10)
Digital Transmission Through Bandlimited Channels
228(58)
Preview
228(1)
The Power Spectrum of a Digital PAM Signal
228(5)
Characterization of Bandlimited Channels and Channel Distortion
233(11)
Characterization of Intersymbol Interference
244(5)
Communication System Design for Bandlimited Channels
249(15)
Signal Design for Zero ISI
250(5)
Signal Design for Controlled ISI
255(4)
Precoding for Detection of Partial Response Signals
259(5)
Linear Equalizers
264(14)
Adaptive Linear Equalizers
273(5)
Nonlinear Equalizers
278(8)
Digital Transmission via Carrier Modulation
286(58)
Preview
286(1)
Carrier-Amplitude Modulation
286(6)
Demodulation of PAM Signals
289(3)
Carrier-Phase Modulation
292(17)
Phase Demodulation and Detection
296(6)
Differential Phase Modulation and Demodulation
302(7)
Quadrature Amplitude Modulation
309(8)
Demodulation and Detection of QAM
310(2)
Probability of Error for QAM in an AWGN Channel
312(5)
Carrier-Frequency Modulation
317(11)
Frequency-Shift Keying
317(2)
Demodulation and Detection of FSK Signals
319(5)
Probability of Error for Noncoherent Detection of FSK
324(4)
Synchronization in Communication Systems
328(16)
Carrier Synchronization
329(6)
Clock Synchronization
335(9)
Channel Capacity and Coding
344(48)
Preview
344(1)
Channel Model and Channel Capacity
344(12)
Channel Model
345(1)
Channel Capacity
345(11)
Channel Coding
356(36)
Linear Block Codes
359(14)
Convolutional Codes
373(19)
Spread Spectrum Communication Systems
392(31)
Preview
392(1)
Direct-Sequence Spread Spectrum Systems
393(11)
Signal Demodulation
395(2)
Probability of Error
397(1)
Two Applications of DS Spread Spectrum Signals
398(6)
Generation of PN Sequences
404(6)
Frequency-Hopped Spread Spectrum
410(13)
Probability of Error for FH Signals
411(5)
Use of Signal Diversity to Overcome Partial-Band Interference
416(7)
References 423(2)
Index 425

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