Introduction: TDMA Versus CDMA; S.G. Glisic, P.A. Leppänen. Part 1: Communication Theory. 1. Coding and Modulation for the Fading Channel; E. Biglieri, et al. 2. Per-Survivor Processing (PSP); A. Polydoros, K.M. Chugg. 3. Communication over Multipath Fading Channels: A Time-Frequency Perspective; A.M. Sayeed, B. Aazhang. 4. Iterative Decoding Algorithms; B. Vucetic. 5. Acquisition of Direct-Sequence Spread-Spectrum Signals; D. Sarwate. Part 2: Wireless Communications. 1. Evolving Wireless Lan Industry Products and Standards; K. Pahlavan, et al. 2. Optimal Joint Handoff and Code Assignment in CDMA Cellular Networks; E. Geraniotis, Y.-W. Chang. 3. Wireless ATM Technology: Present Status and Future Directions; D. Raychaudhuri. 4. A System for Wireless Data Services; K. Sabnani, et al. 5. Wireless Packet and Wireless ATM Systems; E. Ayanoglu. 6. Overview of Wideband CDMA; D. Schilling. 7. Impulse Radio; R.A. Scholtz, M. Win. 8. Overview of Wireless in Local Loop; R. Prasad, C. Chatterjee. Part 3: Antennas and Propagation. 1. Spatial and Temporal Communication Theory Using Software Antennas for Wireless Communications; R. Kohno. 2. Review of Ray Modeling Techniques for Site Specific Propagation Prediction; H. Bertoni, G. Liang. 3. Fundamentals of Smart Antennas for Mobile Radio Applications; P.W. Baier, et al. Part 4: Advanced Systems and Technology. 1. Mobile and Personal Communications: Acts and Beyond; J. Schwarz da Silva, et al. 2. Overview of Research Activities for Third Generation Mobile Communication; T. Ojanperä. 3. Advanced CDMA for Wireless Communications; J. Muntti, S. Glisic. 4. Wireless Communication Technology in Intelligent Transport Systems; M. Nagakawa, L. Michael. 5. RFIC Design for Wireless Communications; C. Kermarrec. 6. VLSI Signal Processing Solutions for Wireless Communications: A Technology Overview; F. Boutaud.
In Time Division Multiple Access (TDMA), within a given time frame a particular user is allowed to transmit within a given time slot. This technique is used in most of the second-generation digital mobile communication systems. In Europe the system is known as GSM, in USA as DAMPS and in Japan as MPT. In Code Division Multiple Access (CDMA) every user is using a distinct code so that it can occupy the same frequency bandwidth at the same time with other users and still can be separated on the basis of low correlation between the codes. These systems like IS-95 in the USA are also developed and standardized within the second generation of the mobile communication systems. CDMA systems within a cellular network can provide higher capacity and for this reason they become more and more attractive. At this moment it seems that both TDMA and CDMA remain viable candidates for application in future systems.
Wireless Communications: TDMA versus CDMA provides enough information for correct understanding of the arguments in favour of one or other multiple access technique. The final decision about which of the two techniques should be employed will depend not only on technical arguments but also on the amount of new investments needed and compatibility with previous systems and their infrastructures.
Wireless Communications: TDMA versus CDMA comprises a collection of specially written contributions from the most prominent specialists in wireless communications in the world today and presents the major, up to date, issues in this field. The material is grouped into four chapters: Communication theory, covering coding and modulation, Wireless communications, Antenna & Propagation and Advanced Systems & Technology.
The book describes clearly the issues and presents the information in such a way that informed decisions about third generation wireless systems ca
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