Novel self-decorrelation and fractional self-decorrelation pre-processing techniques to enhance the output SINR of single-user-type DS-CDMA detectors in blind space-time RAKE receivers.

Cheung Shun Keung.Thesis (M.Phil.)--Chinese University of Hong Kong, 2002.Includes bibliographical references (leaves 80-83).Abstracts in English and Chinese.Chapter 1 --- Introduction --- p.1Chapter 1.1 --- The Problem --- p.1Chapter 1.2 --- Overview of CDMA --- p.2Chapter 1.3 --- Problems Encountered in Direct-Sequence (DS)CDMA --- p.3Chapter 1.3.1 --- Multipath Fading Scenario in DS-CDMA Cellular Mo- bile Communication --- p.3Chapter 1.3.2 --- Near-Far Problem --- p.4Chapter 1.4 --- Delimitation and Significance of the Thesis --- p.5Chapter 1.5 --- Summary --- p.7Chapter 1.6 --- Scope of the Thesis --- p.8Chapter 2 --- Literature Review of Blind Space-Time Processing in a wire- less CDMA Receiver --- p.9Chapter 2.1 --- General Background Information --- p.9Chapter 2.1.1 --- Time Model of K-User Chip-Synchronous CDMA --- p.9Chapter 2.1.2 --- Dispersive Channel Modelling --- p.10Chapter 2.1.3 --- Combination of K-user CDMA Time Model with the Slow Frequency-Selective Fading Channel Model to form a completed Chip-Synchronous CDMA Time Model --- p.13Chapter 2.1.4 --- Spatial Channel Model with Antenna Array [9] --- p.15Chapter 2.1.5 --- Joint Space-Time Channel Model in Chip-Synchronous CDMA --- p.19Chapter 2.1.6 --- Challenges to Blind Space-Time Processing in a base- station CDMA Receiver --- p.23Chapter 2.2 --- Literature Review of Single-User-Type Detectors used in Blind Space-Time DS-CDMA RAKE Receivers --- p.25Chapter 2.2.1 --- A Common Problem among the Signal Processing Schemes --- p.28Chapter 3 --- "Novel ""Self-Decorrelation"" Technique" --- p.29Chapter 3.1 --- "Problem with ""Blind"" Space-Time RAKE Processing Using Single- User-Type Detectors" --- p.29Chapter 3.2 --- "Review of Zoltowski & Ramos[10,11,12] Maximum-SINR Single- User-Type CDMA Blind RAKE Receiver Schemes" --- p.31Chapter 3.2.1 --- Space-Time Data Model --- p.31Chapter 3.2.2 --- The Blind Element-Space-Only (ESO) RAKE Receiver with Self-Decorrelation Pre-processing Applied --- p.32Chapter 3.3 --- Physical Meaning of Self-Decorrelation Pre-processing --- p.35Chapter 3.4 --- Simulation Results --- p.38Chapter 4 --- """Fractional Self-Decorrelation"" Pre-processing" --- p.45Chapter 4.1 --- The Blind Maximum-SINR RAKE Receivers in Chen et. al.[l] and Wong et. al.[2] --- p.45Chapter 4.2 --- Fractional Self-Decorrelation Pre-processing --- p.47Chapter 4.3 --- The Blind Element-Space-Only (ESO) RAKE Receiver with Fractional Self-Decorrelation Pre-processing Applied --- p.50Chapter 4.4 --- Physical Meaning of Fractional Self-Decorrelation Pre-processing --- p.54Chapter 4.5 --- Simulation Results --- p.55Chapter 5 --- Complexity Analysis and Schematics of Proposed Techniques --- p.64Chapter 5.1 --- Computational Complexity --- p.64Chapter 5.1.1 --- Self-Decorrelation Applied in Element-Space-Only (ESO) RAKE Receiver --- p.64Chapter 5.1.2 --- Fractional Self-Decorrelation Applied in Element-Space- Only (ESO) RAKE Receiver --- p.67Chapter 5.2 --- Schematics of the Two Proposed Techniques --- p.69Chapter 6 --- Summary and Conclusion --- p.74Chapter 6.1 --- Summary of the Thesis --- p.74Chapter 6.1.1 --- The Self-Decorrelation Pre-processing Technique --- p.75Chapter 6.1.2 --- The Fractional Self-Decorrelation Pre-processing Tech- nique --- p.76Chapter 6.2 --- Conclusion --- p.78Chapter 6.3 --- Future Work --- p.78Bibliography --- p.80Chapter A --- Generalized Eigenvalue Problem --- p.84Chapter A.1 --- Standard Eigenvalue Problem --- p.84Chapter A.2 --- Generalized Eigenvalue Problem --- p.8