Code Division Multiple Access Communications

Code Division Multiple Access Communications

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Description

Code Division Multiple Access (CDMA) has become one of the main candidates for the next generation of mobile land and satellite communication systems. CDMA is based on spread spectrum techniques, which have been used in military applications for over half a century. Only recently, however, has it been recognised that spread spectrum techniques, combined with some additional steps, can provide higher capacity and better flexibility for the mobile cellular radio communications.
Code Division Multiple Access Communications comprises a set of contributions from the most distinguished world scientists in the field. These papers review the basic theory and some of the most important problems related to spread spectrum and CDMA. The topics covered centre on the information theory aspects of CDMA; interference suppression and performance analysis.
The material presented in this book summarises the main problems in modern CDMA theory and practice and gives a solid starting point for studying this complex and still challenging field. As such Code Division Multiple Access Communications is essential reading for all researchers and designers working in mobile communication systems and provides an excellent text for a course on the subject.
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Product details

  • Hardback | 364 pages
  • 162.56 x 233.68 x 27.94mm | 680.39g
  • Dordrecht, Netherlands
  • English
  • 1995 ed.
  • XII, 364 p.
  • 0792395530
  • 9780792395539

Table of contents

1: Introduction. The Evolution of Spread Spectrum Multiple-Access Communications; R.A. Scholtz. 2: Information Theory & Spread Spectrum. Towards an Information Theory of Spread Spectrum Systems; J.L. Massey. Performance Limits of Error Correcting Coding in Multi-Cellular CDMA Systems With and Without Interference Cancellation; A.J. Viterbi. Optimum PN Sequences for CDMA Systems; D.V. Sarwate. Block Demodulation -- an Overview; E. Biglieri, E. Bogani, M. Visintin. 3: Interference Suppression. Adaptive Multiuser Detection; S. Verdu. Spatial and Temporal Filtering for Co-Channel Interference in CDMA; R. Kohno. Interference Suppression for CDMA Overlays of Narrowband Waveforms; L.B. Milstein, J. Wang. DS/CDMA Successive Interference Cancellation; J.M. Holtzman. 4: Performance Analysis. Rake Reception for a CDMA Mobile Communicaton System with Multipath Fading; D.L. Noneaker, M.B. Pursley. Frequency Hopped Systems for PCS; D.E. Borth, P.D. Rasky, G.M. Chiasson, J.F. Kepler. Spread Spectrum System Synchronization; A. Polydoros, S. Glisic. 5: CDMA Applications. Design Aspects of a CDMA Cellular Radio Network; W.C.Y. Lee. Consumer Communications Based on Spread Spectrum Techniques; M. Nakagawa. Optimal Policies for Multi-Media Integration in CDMA Networks; E. Geraniotis, Y-W. Chang, W-B. Yang. CDMA for Mobile LEO Satellite Communciations; R. Pickholtz, B.R. Vojcic. Standardization in a Wireless Environment; D. Schilling, J. Taylor, J. Garodnik.
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