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Digital Communication Receivers, Volume 2: Synchronization, Channel Estimation, and Signal Processing

Digital Communication Receivers, Volume 2: Synchronization, Channel Estimation, and Signal Processing

Heinrich Meyr , Marc Moeneclaey , Stefan A. Fechtel

ISBN: 978-0-471-50275-3

Nov 1997

864 pages

Select type: Hardcover

In Stock

$238.00

Description

Digital Communication Receivers, Volume 2: Synchronization, Channel Estimation, and Signal Processing offers a complete treatment on the theoretical and practical aspects of synchronization and channel estimation from the standpoint of digital signal processing. The focus on these increasingly important topics, the systematic approach to algorithm development, and the linked algorithm-architecture methodology in digital receiver design are unique features of this book. The material is structured according to different classes of transmission channels. In Part C, baseband transmission over wire or optical fiber is addressed. Part D covers passband transmission over satellite or terrestrial wireless channels. Part E deals with transmission over fading channels. Designed for the practicing communication engineer and the graduate student, the book places considerable emphasis on helpful examples, summaries, illustrations, and bibliographies. Contents include:
  • Basic material
  • Baseband communications
  • Passband transmission
  • Receiver structure for PAM signals
  • Synthesis of synchronization algorithms
  • Performance analysis of synchronizers
  • Bit error degradation caused by random tracking errors
  • Frequency estimation
  • Timing adjustment by interpolation
  • DSP system implementation
  • Characterization, modeling, and simulation of linear fading channels
  • Detection and parameter synchronization on fading channels
  • Receiver structures for fading channels
  • Parameter synchronization for flat fading channels
  • Parameter synchronization for selective fading channels
BASIC MATERIAL.

Basic Material.

BASEBAND COMMUNICATIONS.

Baseband Communications.

PASSBAND COMMUNICATION OVER TIME INVARIANT CHANNELS.

Passband Transmission.

Receiver Structure for PAM Signals.

Synthesis of Synchronization Algorithms.

Performance Analysis of Synchronizers.

Bit Error Rate Degradation Caused by Random Tracking Errors.

Frequency Estimation.

Timing Adjustment by Interpolation.

DSP System Implementation.

COMMUNICATION OVER FADING CHANNELS.

Characterization, Modeling, and Simulation of Linear Fading Channels.

Detection and Parameter Synchronization on Fading Channels.

Receiver Structures for Fading Channels.

Parameter Synchronization for Flat Fading Channels.

Parameter Synchronization for Selective Fading Channels.

Bibliography.

Index.