Error Performance Of Bpsk And Qpsk In Satellite Communications
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Qpsk Bit Error Rate
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Request full-text Lower bounds on error performance for BPSK and QPSK systems with imperfect carrier phase
Probability Of Error For Bpsk And Qpsk
recoveryConference Paper · July 1998 with 7 ReadsDOI: 10.1109/ICC.1998.683026 · Source: IEEE XploreConference: Communications, bpsk probability of error derivation 1998. ICC 98. Conference Record.1998 IEEE International Conference on, Volume: 31st M.A. Najib2nd V.K. PrabhuAbstractLower
Ber For Qpsk Matlab Code
bounds on the error probability for BPSK and QPSK systems are presented when the detection process is corrupted by a noisy phase reference. These bounds http://onlinelibrary.wiley.com/doi/10.1002/sat.753/pdf are derived from the application of Jensen's inequality to convex functions and from the utilization of the moment space bounding technique. A set of improved lower bounds using Jensen's inequality is also derived. We provide explicit relationships between the derived bounds and the average power losses in the studied signals https://www.researchgate.net/publication/3752256_Lower_bounds_on_error_performance_for_BPSK_and_QPSK_systems_with_imperfect_carrier_phase_recovery caused by the imperfect detection process. These averages have simple expressions and can be used in system designs to provide lower bounds on the detection lossDo you want to read the rest of this conference paper?Request full-text CitationsCitations11ReferencesReferences10Simplified bit error rate evaluation of Nagakami‐m PSK systems with phase error recovery"Since exact evaluation is usually complex, the BER of nonideal PSK systems was obtained by numerically integrating the conditional BER expression for a fixed phase error over the phase error statistic [5,11]. Later on, many authors have devoted this problem by using infinite series approaches [12,13], giving approximate solutions [6,8], and [9], or deriving upper and lower bounds [7,12], and [10]. The previous studies did not take channel fading into account, a phenomenon important in wireless communications. "[Show abstract] [Hide abstract] ABSTRACT: An efficient analytical and simulation techniques were developed to analyze the bit error rate of PSK Nakagami-m fad
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