Probability Of Error For M-ary Fsk
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Request full-text Probability of error performance of noncoherent M-ary FSK over multi-link generalized fading channelsConference Paper in Vehicular Technology Conference, 1988, IEEE fsk bit error rate 38th 3:1499 - 1503 · October 2005 with 33 ReadsDOI: 10.1109/VETECF.2005.1558191 · Source: IEEE XploreConference: probability of error for non-coherent fsk Vehicular Technology Conference, 2005. VTC-2005-Fall. 2005 IEEE 62nd, Volume: 31st R.M. Radaydeh29.82 · Unknown2nd Mustafa M m ary fsk block diagram Matalgah27.29 · University of Mississippi3rd Ghaith Matalkah2.22 · Georgia Institute of TechnologyAbstractIn this paper, we consider the performance evaluation of M-ary frequency shift keying (M-ary FSK) with http://ieeexplore.ieee.org/iel5/26/27595/01231643.pdf postdetection equal-gain diversity combining over multi-link AWGN and generalized fading channels, in which the diversity branches are arbitrarily correlated and not necessarily to be identically distributed (having non-uniform power delay profile, fading parameters, and statistical distributions). New expressions for the conditional and average bit error probabilities of Mary FSK system are derived. The average https://www.researchgate.net/publication/4203182_Probability_of_error_performance_of_noncoherent_M-ary_FSK_over_multi-link_generalized_fading_channels bit error probability is expressed in terms of a one-fold finite-range integral and considers the impact of non-identical and correlated fading branches on the system performance.Do you want to read the rest of this conference paper?Request full-text CitationsCitations2ReferencesReferences37Simple Average BER Formula for M-ary Orthogonal Signals with Noncoherent Diversity Combining Over Arbitrarily Correlated Nonidentically Distributed Nakagami-m Fading Channels.[Show abstract] [Hide abstract] ABSTRACT: This paper presents simple, exact, and closed-form expressions for the average bit error rate (BER) of M-ary orthogonal signals with noncoherent diversity combining over independent as well as arbitrarily correlated nonidentically distributed Nakagami-m fading channels. The fading channels are allowed to have arbitrary average signal-to-noise ratios (SNRs) as well as arbitrary fading parameters. The derived expressions are given in terms of elementary functions, they do not involve numerical integrals or complicated functional operations, and can easily be evaluated numerically. The results show that the system average BER can be estimated using the derived expressions herein with large computational time savin
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