Error probability of digital modulation in satellite mobile, land mobile, and Gaussian channels with narrow-band receiver filter

It is shown how to derive formulas for the error probability for M-ary differential phase shift keying with differential phase detection (DPD) and M-ary frequency shift keying with DPD, limiter-discriminator detection and limiter-discriminator-integrator detection in the satellite mobile channel (SM...

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Veröffentlicht in:	IEEE transactions on communications 1992-04, Vol.40 (4), p.697-707
1. Verfasser:	Korn, I.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Differential phase shift keying Digital modulation Error probability Exact sciences and technology Filters Frequency shift keying Gaussian channels Information, signal and communications theory Modulation, demodulation Phase detection Phase frequency detector Satellites Signal and communications theory Sliding mode control Telecommunications and information theory
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container_title	IEEE transactions on communications
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creator	Korn, I.
description	It is shown how to derive formulas for the error probability for M-ary differential phase shift keying with differential phase detection (DPD) and M-ary frequency shift keying with DPD, limiter-discriminator detection and limiter-discriminator-integrator detection in the satellite mobile channel (SMC) with narrowband receiver filter if such formulas are available for the Gaussian channel. The modification of the formulas involves only a redefinition of the noise power and autocorrelation function. Since the SMC contains as special cases the land mobile (Rayleigh) channel and the Gaussian channel, the derived formulas are valid for these channels as well. In fact the formula for the land mobile channel is in many cases reduced to a closed form, which does not contain an integral. The author computes the error probability for the four systems, and compares their performance assuming a third-order butterworth filter and M=2,4,8 symbols.< >
doi_str_mv	10.1109/26.141425
format	Article
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The modification of the formulas involves only a redefinition of the noise power and autocorrelation function. Since the SMC contains as special cases the land mobile (Rayleigh) channel and the Gaussian channel, the derived formulas are valid for these channels as well. In fact the formula for the land mobile channel is in many cases reduced to a closed form, which does not contain an integral. 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The modification of the formulas involves only a redefinition of the noise power and autocorrelation function. Since the SMC contains as special cases the land mobile (Rayleigh) channel and the Gaussian channel, the derived formulas are valid for these channels as well. In fact the formula for the land mobile channel is in many cases reduced to a closed form, which does not contain an integral. The author computes the error probability for the four systems, and compares their performance assuming a third-order butterworth filter and M=2,4,8 symbols.< ></abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/26.141425</doi><tpages>11</tpages></addata></record>
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subjects	Applied sciences Differential phase shift keying Digital modulation Error probability Exact sciences and technology Filters Frequency shift keying Gaussian channels Information, signal and communications theory Modulation, demodulation Phase detection Phase frequency detector Satellites Signal and communications theory Sliding mode control Telecommunications and information theory
title	Error probability of digital modulation in satellite mobile, land mobile, and Gaussian channels with narrow-band receiver filter
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