Theory of Code Division Multiple Access Communication (inbunden)
Fler böcker inom
Format
Inbunden (Hardback)
Språk
Engelska
Antal sidor
416
Utgivningsdatum
2004-05-01
Upplaga
1
Förlag
John Wiley & Sons Inc
Medarbetare
Zigangirov
Illustrationer
Illustrations
Dimensioner
240 x 165 x 30 mm
Vikt
660 g
Antal komponenter
1
Komponenter
52:B&W 6.14 x 9.21in or 234 x 156mm (Royal 8vo) Case Laminate on White w/Gloss Lam
SAB
Pcjc
ISBN
9780471457121
Theory of Code Division Multiple Access Communication (inbunden)

Theory of Code Division Multiple Access Communication

Inbunden Engelska, 2004-05-01
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A comprehensive introduction to CDMA theory and application Code division multiple access (CDMA) communication is rapidly replacing time- and frequency-division methods as the cornerstone of wireless communication and mobile radio. Theory of Code Division Multiple Access Communication provides a lucid introduction and overview of CDMA concepts and methods for both the professional and the advanced student. Emphasizing the role CDMA has played in the development of wireless communication and cellular mobile radio systems, the author leads you through the basic concepts of mobile radio systems and considers the different principles of multiple access-time division, frequency division, and code division. He then analyzes three major CDMA systems-direct sequence (DS) CDMA systems, frequency hopped (FH) CDMA systems, and pulse position hopped (PPH) CDMA systems. Other topics covered include: Spread spectrum (SS) technology Forward error control coding CDMA communication on fading channels Pseudorandom signals Information theory in relation to CDMA communication CDMA cellular networks Complete with useful appendices providing analyses of the moments of CDMA system decision statistics, Theory of Code Division Multiple Access Communication is a ready reference for every engineer seeking an understanding of the history and concepts of this key communications technology.
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Fler böcker av Kamil Sh Zigangirov

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Övrig information

KAMIL SH. ZIGANGIROV received his PhD from the Institute of Radio Engineering and Electronics at the USSR Academy of Sciences in 1966. Since then, he has been a visiting scientist at MIT in Cambridge, Massachusetts, at Napoli University in Napoli, Italy, and at the University of Notre Dame, Notre Dame, Indiana. He is currently a professor in the Department of Information Technology at Lund University in Lund, Sweden.

Innehållsförteckning

Preface. 1 Introduction to Cellular Mobile Radio Communication. 1.1 CellularMobile Radio Systems. 1.2 Frequency Division and Time Division Multiple Access. 1.3 Direct Sequence CDMA. 1.4 Frequency-Hopped CDMA. 1.5 Pulse Position-Hopped CDMA. 1.6 Organization of the Text. 1.7 Comments. Problems. 2 Introduction to Spread Spectrum Communication Systems. 2.1 Modulation Formats for SS Communication. 2.2 Correlation and Spectral Properties of Modulated Signals. 2.3 Generation of DS SS Signals. 2.4 Frequency-Hopped SS Signals. 2.5 Pulse Position-Hopped SS Signals. 2.6 Orthogonal and Quasi-Orthogonal Expansions of SS Signals. 2.7 Comments. Problems. 3 Reception of Spread Spectrum Signals in AWGN Channels. 3.1 Problem Formulation. 3.2 Neyman-Pearson Hypothesis Testing Concept. 3.3 Coherent Reception of DS CDMA Signals (Uplink Transmission). 3.4 Coherent Reception of DS CDMA Signals (Downlink Transmission). 3.5 Reception of DS DPSK SS Signals. 3.6 Reception of FH SS Signals. 3.7 Reception of PPH SS Signals. 3.8 Comments. Problems. 4 Forward Error Control Coding in Spread Spectrum Systems. 4.1 Introduction to Block Coding. 4.2 First-Order Reed-Muller Code. 4.3 Noncoherent Reception of Encoded DS CDMA Signals. 4.4 Introduction to Convolutional Coding. 4.5 Convolutional Coding in DS CDMA Systems. 4.6 Orthogonal Convolutional Codes. 4.7 Coding in FH and PPH CDMA Systems. 4.8 Concatenated Codes in CDMA Systems. 4.9 Comments. Problems. 5 CDMA Communication on Fading Channels. 5.1 Statistical Models of Multipath Fading. 5.2 Coherent Reception of Faded Signals. 5.3 Forward Transmission over a Multipath Faded Channel in a DS CDMA System. 5.4 Reverse Transmission over a Multipath Faded Channel in a DS CDMA System. 5.5 Interleaving for a Rayleigh Channel. 5.6 FH SS Communication over Rayleigh Faded Channels. 5.7 Comments. Problems. 6 Pseudorandom Signal Generation. 6.1 Pseudorandom Sequences and Signals. 6.2 Finite-Field Arithmetic. 6.3 Maximum-Length Linear Shift Registers. 6.4 Randomness Properties of Maximal-Length Sequences. 6.5 Generating Pseudorandom Signals (Pseudonoise) from Pseudorandom Sequences. 6.6 Other Sets of Spreading Sequences. 6.7 Comments. Problems. 7 Synchronization of Pseudorandom Signals. 7.1 Hypothesis Testing in the Acquisition Process. 7.2 Performance of the Hypothesis Testing Device. 7.3 The Acquisition Procedure. 7.4 Modifications of the Acquisition Procedure. 7.5 Time Tracking of SS Signals. 7.6 Coherent Reception of Uplink Transmitted Signals in the DS CDMA System. 7.7 Comments. Problems. 8 Information-Theoretical Aspects of CDMA Communications. 8.1 Shannon Capacity of DS CDMA Systems. 8.2 Reliability Functions. 8.3 Capacity of FH CDMA Systems. 8.4 Uplink Multiple-Access Channels. 8.5 Downlink Multiple-Access Channels. 8.6 Multiuser Communication in the Rayleigh Fading Channels. 8.7 Comments. Problems. 9 CDMA Cellular Networks. 9.1 General Aspects of CDMA Cellular Networks. 9.2 Other-Cell Relative Interference Factors. 9.3 Handoff Strategies. 9.4 Power Control. 9.5 Erlang Capacity of CDMA System. 9.6 Interference Cancellation in the Reverse Link of the DS CDMA System. 9.7 User Coordination in the Forward Link of the DS CDMA System. 9.8 Third-Generation Wireless Cellular Networks. 9.9 Comments. Problems. Appendix A: Analysis of the Moments of the Decision Statistics for the FH CDMA Communication System. Bibliography. Index.