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Adaptive Wireless Transceivers: Turbo-Coded, Turbo-Equalized and Space-Time Coded TDMA, CDMA, and OFDM Systems |
| Lajos Hanzo (Univ. of Southampton, UK); C. H. Wong (Multiple Access Communications Ltd, UK); M. S. Yee (Univ. of Southampton, UK)�Lajos Hanzo (Univ. of Southampton, UK); C. H. Wong (Multiple Access Communications Ltd, UK); M. S. Yee (Univ. of Southampton, UK) |
| Adaptive Wireless Transceivers provides the reader with a broad overview of near-instantaneously adaptive transceivers in the context of TDMA, CDMA and OFDM systems. The adaptive transceivers examined employ powerful turbo codecs, turbo equalisers and space-time codecs, equipping the reader with a future-proof technological road map. It demonstrates that adaptive transceivers are capable of mitigating the channel quality fluctuations of the wireless channel as a lower-complexity alternative to space-time coding. By contrast, if the higher complexity of multiple transmitters and multiple receiver-assisted systems is deemed acceptable, the advantages of adaptability erode. *Provides an in-depth introduction to channel equalisers and Kalman filtering and discusses the associated complexity versus performance trade-offs *Introduces wideband near-instantaneously adaptive transceivers and studies their performance both with and without turbo channel coding *Describes how to optimise adaptive modulation mode switching and highlights a range of practical considerations *Introduces neural network based channel equalisers and discusses Radial Basis Function (RBF) assisted equalisers embedded into adaptive modems supported by turbo channel coding and turbo channel equalisation *Employs the above adaptive principles also in the context of CDMA and OFDM transceivers and discusses the pros and cons of space-time coding versus adaptive modulation Researchers, advanced students and practising development engineers working in wireless communications will all find this valuable text an informative read.
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| Cloth Bound |
752 Pages
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Item #:
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0470846895
$230.00 |
John Wiley & Sons, Inc. | |
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