MULTI-CARRIER SPREAD SPECTRUM AND RELATED TOPICS

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Ouvrage 0-7923-7740-0 : MULTI-CARRIER SPREAD SPECTRUM AND RELATED TOPICS
The benefits and success of multi-carrier (MC) modulation on one hand, and the flexibility offered by spread spectrum (SS) techniques on the other, have, since 1993, motivated many researchers to investigate the combination of both techniques, known as multi-carrier spread-spectrum (MC-SS). This combination benefits from the main advantages of both systems and offers high flexibility, high spectral efficiency, simple detection strategies, narrow-band interference rejection capability, etc. The basic principle of this combination is straightforward: the spreading is performed as direct sequence SS (DS-SS) but instead of transmitting the chips over a single carrier, several sub-carriers can be employed. The MC modulation and demodulation can easily be done in the digital domain by performing IFFT and FFT operations. The separation of the users' signals can be performed in the code domain. This means that the MC-SS system performs the spreading in the frequency domain, which allows for simple signal detection strategies. Since 1993, MC-SS has been extensively researched and new alternative solutions have been proposed. Meanwhile, deep system analyses and comparisons with DS-CDMA have been performed that show the superiority of MC-CDMA.
This book, which consists of seven parts, contains a collection of papers, dealing with all aspects of MC-SS, presented at the Second International Workshop on Multi-Carrier Spread-Spectrum (MC-SS) and Related Topics, held from September 15-17, 1999 in Oberpfaffenhofen, Germany. It will be an invaluable reference for all researchers and practitioners working in the area of wireless communications and networks.
Table of Contents
Editorial Introduction. Acknowledgements.
I: General Issues of Multi-Carrier Spread-Spectrum & Related Topics.
Some Novel Concepts in Multiplexing and Multiple Access; H. Sari, et al.
Wideband Multimedia Solution using Hybrid CDMA/OFDMA/SFH Techniques; M. Jankiraman, R. Prasad. Generalised Multicarrier CDMA for Wireless MUI/ISI-Resilient Uplink Transmissions Irrespective of Frequency Selective Multipath; G.B. Giannakis, et al. Performance Tradeoffs in Asynchronous Spread Spectrum Multi-Carrier Multiple-Access; S. Kaiser, et al.
II: Applications of Multi-Carrier Spread-Spectrum & Related Topics.
Performance of a Flexible Form of MC-CDMA in a Cellular System; H. Steendam, H. Moeneclaey. A Multi-Carrier Spread-Spectrum Approach to Broadband Underwater Acoustic Communications; R.F. Ormondroyd, et al. A New Combined OFDM-CDMA Approach for Cellular Mobile Communications; L. Ping.
A Digital Microwave Point-to-Multi-Point (PMP) System Based on Multi-Carrier FDMA-Transmission; K. Fazel, V. Engels. A Hybrid TDMA/CDMA System Based on Filtered Multitone Modulation for Upstream Transmission in HFC Networks; G. Cherubini.
III: Coding and Modulation.
On Coding and Spreading for MC-CDMA; J. Lindner. MCM-DSSS with DPSK Modulation and Equal Gain Combining in Delay and Doppler-Spread Rician Fading; R.E. Ziemer, T.B. Welch. Influence of Code Selection on the Performance of a Multi-Carrier Spread-Spectrum System; J. Kühne, et al. Complex Valued Block Codes for OFDM-CDMA Application; A. Dekorsy, K.-D. Kammeyer.
Two-Dimensional Differential Demodulation of OFDM Frames; E. Haas, S. Kaiser.
Block Turbo Coding in OFDM-based HIPERLAN/2 Systems; R.G. Maynou, et al.
The Performance Analysis of Multi-Carrier CDMA Systems Using Different Spreading Codes in Frequency Selective Fading Environments; H. Xing, et al.
IV: Detection and Multiplexing.
Each Carrier Transmission Power Control with Antenna-Carrier Diversity for OFDM-DS-CDMA; S.P.W. Jarot, M. Nakagawa. A Wavelet-based Multicarrier Spread Spectrum System with Constant Power; S. Attallah, T.J. Lim. A Subspace Method for Blind Channel Identification in Multi-Carrier CDMA Systems; D.I. Iglesia, et al. Multiuser Detection with Iterated Channel Estimation; A. Lampe, C. Windpassinger.
MUD Improvement by using Hexagonal Pilot Distributions for Channel Acquisition and Tracking in MC-CDMA Systems; F. Bader, et al. Adaptive Multi-Shot Multiuser Detection for Asynchronous MC-CDMA Using Bootstrap Algorithm; P. Zong, et al.
V: Interfrence Cancellation.
Blind Adaptive Interference Cancellation for Multicarrier Modulated Systems; M.A. Visser, Y. Bar-Ness. Performance of Downlink MC-CDMA with Simple Interference Cancellation; H. Ochiati, H. Imai. Wideband and Narrowband Interference Cancellation for Asynchronous MC-CDMA; A.C. McCormick, et al. Multiple Access Interference Cancellation in Multicarrier CDMA Systems Using a Subspace Projection Technique; D.I. Iglesia, et al. Interference Cancellation for a Multi-Carrier Spread-Spectrum FCDMA System; A. Nahler, et al. Narrowband Interference Mitigation in OFDM-based WLANs; R. Ness, et al. Multi-Carrier CDMA using Interference Cancellation; J.-Y. Baudais, et al.
VI: Synchronization and Channel Estimation.
An Overview of MC-CDMA Synchronization Sensitivity; H. Steendam, M. Moeneclaey.
Blind Frequency Offset/Symbol Timing/Symbol Period Estimation and Subcarrier Recovery for OFDM Signals in Fading Channels; S. Hara. Doppler Spread Analysis and Simulation for Multi-Carrier Mobile Radio and Broadcast Systems; P. Robertson, S. Kaiser. Reduced State Joint Channel Estimation and Equalization; I. De Broeck, et al.
Channel Estimation with Superimposed Pilot Sequence Applied to Multi-Carrier Systems; P. Hoeher, F. Tufvesson. A Comparison of Channel Estimation Techniques for OFDM-CDMA and MC/JD-CDMA Systems; B. Steiner. Burst Synchronization for OFDM Systems with Turbo Codes; F. Said, et al.
Acquisition of Synchronisation Parameters for OFDM Using a Single OFDM Training Symbol; D. Matic, et al.
VII: Realization and Implementation.
Implementation of Multicarrier Systems with Polyphase Filterbanks; K. Matheus, et al.
On the Improvement of HF Multicarrier Modem Behavior by Using Spread Spectrum Techniques to Combat Fading Channels; S. Zazo, et al. Am Improved MMSE based Block Decision Feedback Equalizer; A. Bury, J. Lindner.
MC-CDMA vs. DC-CDMA in the Presence of Nonlinear Distortions; K. Fazel, S. Kaiser.

Auteur : FAZEL
Editeur : KLUWER
Nombre de pages : 376
Date de publication : 05 2000

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