Description
Here's an authoritative, cutting-edge resource that gives you a thorough understanding of CDMA transmission and detection. It offers practical guidance in designing interference-reducing multi-user receivers for mobile radio systems and multi-user adaptive modems for accessing satellite earth stations. The book provides in-depth descriptions of CDMA principles, and of linear and non-linear multi-user detection, and covers the fine details of the realization of a linear multi-user receiver. Extensively supported with over 300 equations and more than 95 illustrations, the book enables you to devise accurate system models of both a cellular TD-CDMA radio interface and an asynchronous satellite radio interface. It allows you to choose among different architectural solutions for both linear multi-user receivers to be operated in TD-CDMA radio systems and adaptive linear CDMA receivers in satellite asynchronous CDMA systems.
Table Of Contents
Preface; Introduction and CDMA Models - Multiple Access Techniques. Code Division Multiple Access. Spread Spectrum Techniques for CDMA. Short Codes vs. Long Codes: Orthogonal vs. Random Spreading. Synchronous CDMA. Asynchronous CDMA. Dicotomies in CDMA. ; Single-User Detection - Single-User vs. Multiuser Receivers. Performance Measures of CDMA Receivers. The Conventional Receivers. The Rake Receiver. Limits of Single-User Detection.; Linear Multiuser Detection - Synchronous CDMA, Short Code, Multipath, Multirate. Sliding Window Linear Detectors. MMSE Receivers for CDMA Asynchronous Systems. Sliding Window MMSE Receiver. Considerations on Linear Detection. ; Structured vs. Unstructured Linear Detection and Interference Mitigation - System Model. Linear Receivers. Sliding Window Receiver. Typical Operating Modes of the Linear Receivers. Multiuser Detection vs. Interference Mitigation. ; Adaptive Linear Multiuser Detection - Adaptive MMSE Receivers. Trained Adaptive MMSE Receiver. Blind Adaptive MMSE Receiver. Blind Adaptive MMSE Receiver with Surplus Energy Constraint. Advantages of Adaptive Linear Detection.; Performance of Linear Multiuser Detection - Performance of the ZF and MMSE Receivers in Synchronous Systems: BER and BEP Performance in a Single-Cell and Multiple Cell Scenario. Performance of the MMSE Receivers in Asynchronous Systems: Transient Performance of Adaptive Receivers; BER Performance in the Ideal Case, in the Presence of Phase Offset, Frequency Offset and Timing Error.; Non-Linear Multiuser Detection - Non-Linear Detection Fundamentals. Observation model. Successive Interference Cancellation (SIC). Parallel Interference Cancellation (PIC). Decision Feedback Non-Linear Receivers. Linear vs. Non-Linear Multiuser Detection.; Synchronization Techniques - Observation Model. Timing Acquisition. Performance of the Sliding Correlator. Frequency Offset Estimation. Performance of the Linear Frequency Estimator. Coherent Vs. Non Coherent Detection.; Third Generation Mobile Radio System ë General Specifications. The Physical Layer of the TDD-HCR Mode. Transmission Scheme and Transmitted Signal. Cell Search and Synchronization. Novelties of the Third Generation Radio System. ; The ASI-CNIT Communication System. - System Description. Data Frame Format. Algorithms For Data Detection and their Performance. Optimization of the Length of the Training Sequence. Signaling Using the Synchronization Sequence.;
Author
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Piero Castoldi
Piero Castoldi is associate professor at the Scuola Superiore Sant 'Anna in Pisa, Italy. A member of the IEEE, he holds a Ph.D. in information technology from the University of Parma, Italy, and a five-year program Laurea degree in electrical engineering from the University of Bologna.