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CDMA Systems Engineering Handbook Jhong Sam Lee

CDMA Systems Engineering Handbook By Jhong Sam Lee

CDMA Systems Engineering Handbook by Jhong Sam Lee

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Summary

This text aims to strengthen the reader's knowledge of Code Division Multiple Access (CDMA) technology and build an understanding of the technical details and engineering design principles behind the IS-95 digital cellular system standard.

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CDMA Systems Engineering Handbook Summary

CDMA Systems Engineering Handbook by Jhong Sam Lee

This text aims to strengthen the reader's knowledge of Code Division Multiple Access (CDMA) technology and build an understanding of the technical details and engineering design principles behind the IS-95 digital cellular system standard. It contains nearly 2000 equations and aims to teach techniques to help assess system modulation and convolutional code performance; optimize cellular system and Erlang capacity; design PN code generators for spread-spectrum applications; use masks to control PN code phase offsets for CDMA cells; and control CDMA forward link power allocation to help maximize system capacity.

About Jhong Sam Lee

Jhong S. Lee has nearly 40 years of experience in satellite communication systems, signal processing, electronic warfare, and spread-spectrum system analysis. He is president and CEO of J.S. Lee Associates, Inc., Maryland, an R&D firm specializing in DoD components and wireless communications systems for second generation digital cellular and PCS systems. The author of more than 70 technical articles and professional papers, he earned his D.Sc. in electrical engineering from The George Washington University, Washington, DC. Dr. Lee is a Fellow of the IEEE. Leonard E. Miller is vice president of research at J.S. Lee Associates, Inc., where he specializes in the analysis of military electronic support and communication systems. He has more than 30 years of experience in signal detection and electronic countermeasures, signal processing design, and electronic defense systems. Dr. Miller has published dozens of technical papers and has served as a reviewer for the IEEE. He earned his Ph.D. from the Catholic University of America, Washington, DC.

Table of Contents

Introduction and Review of System Analysis Basics: Introduction - Multiple Access and Spread Spectrum. Review of Linear Systems Analysis Fundamentals. Sampling Theorems. Baseband Pulse Shaping for Bandlimited Transmission. Probability Function. Mobile Radio Propagation Considerations: Overview of Propagation Theory and Models. The Mobile Radio Environment. Analog Cellular Systems Engineering: Review of Telephone Traffic Theory. The Cellular Concept. Coverage and Capacity in Cellular Systems. Overview of the IS-95 Standard: Coordination of Frequency and Time. Description of Forward Link Operations. Description of Reverse Link Operations. Special Features of the IS-95 system. Walsh Functions and CRC Codes: Introduction to Walsh Functions. Walsh Function Generation. Orthogonal Walsh Functions for CDMA Applications. Walsh Function Decoding. Linear Block Codes. Parity Check Matrix. Hamming Codes. Cyclic Codes. Binary BCH Codes. Frame Quality Indicators in IS-95. Theory and Application of PN Sequences: Extension Galois Fields and Primitive Polynomials. Roots of Polynomials and Maximal-Length Sequences. Reciprocal Polynomials. Mechanization of LFSRs. State Vector Variations for PN Sequence Phase Shifts. Shift Register Implementation of PN Sequences. Shift Register Generators with Special Loading Vectors. Derivation of the Sequences at the MSRG Outputs. The Use of Masks to Select a Sequence Phase Shift. Autocorrelation and Cross-Correlation Properties. Orthogonalization and Decimation. Gold Codes. Modulation and Demodulation of IS-95 Spread Spectrum Signals: Optimum Receiver Design. Modulation Schemes Used in the IS-95 System. Shaped vs. Unshaped Local PN Sequences for Despreading. PN Code Acquisition and Tracking for Despreading of SS Signals. Performance of Orthogonal Modulation Systems. Convolutional Codes and Their Use in IS-95: Introduction. Convolutional Codes. Maximum Likelihood Decoding of Convolutional Codes. Performance Bounds for Viterbi Decoding of Convolutional Codes. Diversity Reception and Combining Schemes: Introduction. Diversity Techniques. Diversity Selection and Combining Techniques. CDMA Cellular Engineering Issues: CDMA Cells. Pilot Offset Selection. Coverage and Capacity for CDMA. Erlang Capacity of CDMA Cellular Systems. Optimum Forward Link Power Control for CDMA Operation: Solution for Forward Link Transmitter Power. Parametric Variation of the Solution for Forward Link Powers. Required Transmitter Margins for Achieving Receiver Fade Margins. Fade Margin, Link Reliability, and Optimum CDMA Forward Link Power. Link Balancing Constraint on Forward Link Power. Dynamic Forward Link Power Control Implementation. Ideal Open Loop Power Control Strategy for Link Balancing.

Additional information

CIN0890069905G
9780890069905
0890069905
CDMA Systems Engineering Handbook by Jhong Sam Lee
Jhong Sam Lee
Mobile Communications Library
Used - Good
Hardback
Artech House Publishers
1998-11-01
1200
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in good condition, but if you are not entirely satisfied please get in touch with us

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