Contemporary communication systems using MATLAB and Simulink /
Proakis, John G.
Contemporary communication systems using MATLAB and Simulink / John G. Proakis, Masoud Salehi, Gerhard Bauch. - 2nd ed. - Delhi ; Belmont, CA, USA : Thomson--Brooks/Cole, c2004. - viii, 487 p. : ill. ; 24 cm.
Includes bibliographical references (p. 485) and index.
Signals and Linear Systems --
Fourier Series --
Periodic Signals and LTI Systems --
Fourier Transforms --
Sampling Theorem --
Frequency-Domain Analysis of LTI Systems --
Power and Energy --
Lowpass Equivalent of Bandpass Signals --
Random Processes --
Generation of Random Variables --
Gaussian and Gauss-Markov Processes --
Power Spectrum of Random Processes and White Processes --
Linear Filtering of Random Processes --
Lowpass and Bandpass Processes --
Monte Carlo Simulation of Digital Communication Systems --
Analog Modulation --
Amplitude Modulation (AM) --
DSB-AM --
Conventional AM --
SSB-AM --
Demodulation of AM Signals --
DSB-AM Demodulation --
SSB-AM Demodulation --
Conventional AM Demodulation --
Angle Modulation --
Analog-to-Digital Conversion --
Measure of Information --
Noiseless Coding --
Quantization --
Scalar Quantization --
Vector Quantization --
Pulse-Code Modulation --
Uniform PCM --
Baseband Digital Transmission --
Binary Signal Transmission --
Optimum Receiver for the AWGN Channel --
Other Binary Signal Transmission Methods --
Signal Constellation Diagrams for Binary Signals --
Multiamplitude Signal Transmission --
Signal Waveforms with Four Amplitude Levels --
Optimum Receiver for the AWGN Channel --
Signal Waveforms with Multiple Amplitude Levels --
Multidimensional Signals --
Multidimensional Orthogonal Signals --
Biorgthogonal Signals --
Digital Transmission Through Bandlimited Channels --
The Power Spectrum of a Digital PAM Signal --
Characterization of Bandlimited Channels and Channel Distortion. TOC
8131501248 0534406173 (pbk. : alk. paper) 9780534406172
2003105441
Data transmission systems--Computer simulation.
Telecommunication systems--Computer simulation.
TK5105 / .P744 2004
621.38216 / PRC 2004
Contemporary communication systems using MATLAB and Simulink / John G. Proakis, Masoud Salehi, Gerhard Bauch. - 2nd ed. - Delhi ; Belmont, CA, USA : Thomson--Brooks/Cole, c2004. - viii, 487 p. : ill. ; 24 cm.
Includes bibliographical references (p. 485) and index.
Signals and Linear Systems --
Fourier Series --
Periodic Signals and LTI Systems --
Fourier Transforms --
Sampling Theorem --
Frequency-Domain Analysis of LTI Systems --
Power and Energy --
Lowpass Equivalent of Bandpass Signals --
Random Processes --
Generation of Random Variables --
Gaussian and Gauss-Markov Processes --
Power Spectrum of Random Processes and White Processes --
Linear Filtering of Random Processes --
Lowpass and Bandpass Processes --
Monte Carlo Simulation of Digital Communication Systems --
Analog Modulation --
Amplitude Modulation (AM) --
DSB-AM --
Conventional AM --
SSB-AM --
Demodulation of AM Signals --
DSB-AM Demodulation --
SSB-AM Demodulation --
Conventional AM Demodulation --
Angle Modulation --
Analog-to-Digital Conversion --
Measure of Information --
Noiseless Coding --
Quantization --
Scalar Quantization --
Vector Quantization --
Pulse-Code Modulation --
Uniform PCM --
Baseband Digital Transmission --
Binary Signal Transmission --
Optimum Receiver for the AWGN Channel --
Other Binary Signal Transmission Methods --
Signal Constellation Diagrams for Binary Signals --
Multiamplitude Signal Transmission --
Signal Waveforms with Four Amplitude Levels --
Optimum Receiver for the AWGN Channel --
Signal Waveforms with Multiple Amplitude Levels --
Multidimensional Signals --
Multidimensional Orthogonal Signals --
Biorgthogonal Signals --
Digital Transmission Through Bandlimited Channels --
The Power Spectrum of a Digital PAM Signal --
Characterization of Bandlimited Channels and Channel Distortion. TOC
8131501248 0534406173 (pbk. : alk. paper) 9780534406172
2003105441
Data transmission systems--Computer simulation.
Telecommunication systems--Computer simulation.
TK5105 / .P744 2004
621.38216 / PRC 2004