Multifrequency trellis coding with low delay for fading channels

An L-frequency trellis coding scheme designed for fading channels that provides diversity up to order L is described. L-frequency coding is advantageous over channel coding schemes that achieve implicit time-diversity through trellis coding in conjunction with time-interleaving because it requires n...

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Veröffentlicht in:	IEEE transactions on communications 1993-10, Vol.41 (10), p.1450-1459
Hauptverfasser:	Leung, Y.S., Wilson, S.G., Ketchum, J.W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Bandwidth Channel coding Coding, codes Coherence Delay Diversity methods Energy efficiency Exact sciences and technology Fading Frequency diversity Gaussian channels Information, signal and communications theory Signal and communications theory Telecommunications and information theory Vehicles
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container_issue	10
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container_title	IEEE transactions on communications
container_volume	41
creator	Leung, Y.S. Wilson, S.G. Ketchum, J.W.
description	An L-frequency trellis coding scheme designed for fading channels that provides diversity up to order L is described. L-frequency coding is advantageous over channel coding schemes that achieve implicit time-diversity through trellis coding in conjunction with time-interleaving because it requires negligible end-to-end delay. The authors derive an upper-bound for the probability of symbol error of the L-frequency code. Based on this upper-bound, they then deduce the design criteria for optimum L-frequency codes. A numerical approximation to this upper-bound and the design of a two-state and two four-state, two-frequency codes are presented. Through simulations, it was found that relative to the traditional dual frequency diversity approach, the two-state and four-state codes achieve 3- and 4-dB coding gains, respectively. This energy efficiency gain can be translated into a spectral efficiency gain. A brief discussion on the difference in code design techniques for the Gaussian channel and the fading channel is also presented.< >
doi_str_mv	10.1109/26.237879
format	Article
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L-frequency coding is advantageous over channel coding schemes that achieve implicit time-diversity through trellis coding in conjunction with time-interleaving because it requires negligible end-to-end delay. The authors derive an upper-bound for the probability of symbol error of the L-frequency code. Based on this upper-bound, they then deduce the design criteria for optimum L-frequency codes. A numerical approximation to this upper-bound and the design of a two-state and two four-state, two-frequency codes are presented. Through simulations, it was found that relative to the traditional dual frequency diversity approach, the two-state and four-state codes achieve 3- and 4-dB coding gains, respectively. This energy efficiency gain can be translated into a spectral efficiency gain. 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L-frequency coding is advantageous over channel coding schemes that achieve implicit time-diversity through trellis coding in conjunction with time-interleaving because it requires negligible end-to-end delay. The authors derive an upper-bound for the probability of symbol error of the L-frequency code. Based on this upper-bound, they then deduce the design criteria for optimum L-frequency codes. A numerical approximation to this upper-bound and the design of a two-state and two four-state, two-frequency codes are presented. Through simulations, it was found that relative to the traditional dual frequency diversity approach, the two-state and four-state codes achieve 3- and 4-dB coding gains, respectively. This energy efficiency gain can be translated into a spectral efficiency gain. A brief discussion on the difference in code design techniques for the Gaussian channel and the fading channel is also presented.< ></abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/26.237879</doi><tpages>10</tpages></addata></record>
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subjects	Applied sciences Bandwidth Channel coding Coding, codes Coherence Delay Diversity methods Energy efficiency Exact sciences and technology Fading Frequency diversity Gaussian channels Information, signal and communications theory Signal and communications theory Telecommunications and information theory Vehicles
title	Multifrequency trellis coding with low delay for fading channels
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