CU7003 Digital Communication Receivers
CU7003
Digital Communication Receivers
CU7003 DIGITAL COMMUNICATION
RECEIVERS LTPC 3003
UNIT I REVIEW OF DIGITAL COMMUNICATION TECHNIQUES 9
Base band communication; signal space representation, linear and nonlinear modulation
techniques, Error tracking and Spectral characteristics of digital modulation.
UNIT II OPTIMUM RECEIVERS FOR AWGN CHANNEL 9
Correlation demodulator, matched filter, maximum likelihood sequence detector, optimum
receiver for CPM signals, M-ary orthogonal signals, envelope detectors for Mary and correlated
binary signals.
UNIT III RECEIVERS FOR FADING CHANNELS 9
Characterization of fading multiple channels, statistical models, flat and frequency selective
fading, diversity technique, Optimal receivers for data detection and synchronization parameter
estimation, coded waveform for fading channel.
UNIT IV SYNCHRONIZATION TECHNIQUES 9
Carrier and signal synchronization, carrier phase estimation-PLL, Decision directed loops,
symbol timing estimation, maximum likelihood and non-decision directed timing estimation,
joint
estimation.
UNIT V ADAPTIVE EQUALIZATION 9
Zero forcing algorithm, LMS algorithm, adaptive decision-feedback equalizer and Equalization
of Trellis-coded signals. Kalman algorithm, blind equalizers and stochastic gradient algorithm.
TOTAL: 45 PERIODS
REFERENCES: ,
1. Heinrich Meyer, Mare Moeneclacy, Stefan.A.Fechtel, "Digital communication receivers-",
Vol I & Vol II, John Wiley, New York, 1997.
2. U.Mengali & A.N.D' Andrea, Synchronization Techniques for Digital Receivers, Kluwer,
1997.
3. John.G.Proakis, "Digital communication "4th Edition, McGraw-Hill, New York, 2001.
4. E.A.Lee and D.G. Messerschmitt, "Digital communication ",2nd Edition, Allied Publishers,
NewDelhi, 1994.
5. Simon Marvin, "Digital communication over fading channel; An unified approach to
performance Analysis ", John Wiley, New York, 2000.
6. H.Meyr & G.Ascheid, Synchronization in Digital Communications, John Wiley, 1990.
7. R. G. Gallager, Principles of Digital Communication, Cambridge University Press, 2008.
UNIT I REVIEW OF DIGITAL COMMUNICATION TECHNIQUES 9
Base band communication; signal space representation, linear and nonlinear modulation
techniques, Error tracking and Spectral characteristics of digital modulation.
UNIT II OPTIMUM RECEIVERS FOR AWGN CHANNEL 9
Correlation demodulator, matched filter, maximum likelihood sequence detector, optimum
receiver for CPM signals, M-ary orthogonal signals, envelope detectors for Mary and correlated
binary signals.
UNIT III RECEIVERS FOR FADING CHANNELS 9
Characterization of fading multiple channels, statistical models, flat and frequency selective
fading, diversity technique, Optimal receivers for data detection and synchronization parameter
estimation, coded waveform for fading channel.
UNIT IV SYNCHRONIZATION TECHNIQUES 9
Carrier and signal synchronization, carrier phase estimation-PLL, Decision directed loops,
symbol timing estimation, maximum likelihood and non-decision directed timing estimation,
joint
estimation.
UNIT V ADAPTIVE EQUALIZATION 9
Zero forcing algorithm, LMS algorithm, adaptive decision-feedback equalizer and Equalization
of Trellis-coded signals. Kalman algorithm, blind equalizers and stochastic gradient algorithm.
TOTAL: 45 PERIODS
REFERENCES: ,
1. Heinrich Meyer, Mare Moeneclacy, Stefan.A.Fechtel, "Digital communication receivers-",
Vol I & Vol II, John Wiley, New York, 1997.
2. U.Mengali & A.N.D' Andrea, Synchronization Techniques for Digital Receivers, Kluwer,
1997.
3. John.G.Proakis, "Digital communication "4th Edition, McGraw-Hill, New York, 2001.
4. E.A.Lee and D.G. Messerschmitt, "Digital communication ",2nd Edition, Allied Publishers,
NewDelhi, 1994.
5. Simon Marvin, "Digital communication over fading channel; An unified approach to
performance Analysis ", John Wiley, New York, 2000.
6. H.Meyr & G.Ascheid, Synchronization in Digital Communications, John Wiley, 1990.
7. R. G. Gallager, Principles of Digital Communication, Cambridge University Press, 2008.
STUDY MATERIALS
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