Performance Analysis of DE-QPSK and π/4 QPSK with MRC Receiver over η-µ fading channel
Keywords:
ASER, DE-QPSK, QPSKAbstract
This study presents approximate but simple expression for the average symbol error rate of differentially encoded quadrature phase shift keying (DE-QPSK) and π/4 QPSK with Maximal Ratio Combining (MRC) diversity over independent η-µ fading channels. Numerical results demonstrate the error performance for different values of fading parameter µ for Lth order MRC for Format 1 and Format 2. Furthermore, error performance of both modulation techniques has also been analyzed for Nakagami-m, Rayleigh, one sided Gaussian and Hoyt fading as a special case.
Cite this Article
Kiranpreet Kaur, T.S. Kamal, J.S. Ubhi. Performance Analysis of DE-QPSK and π/4 QPSK with MRC Receiver over η-µ fading channel. Journal of Communication Engineering & Systems. 2018; 8(3):
53–59p.
References
Dixit D, Sahu PR. Performance of L-branch MRC receiver in -μ and -μ fading channels for QAM signals. IEEE WCL. 2012; 1(4): 316–319p.
Yacoub . The -μ distribution and the -μ distribution. IEEE APM. 2007; 49(1): 68–81p.
Costa DBD, Yacoub MD. Moment generating functions of generalized fading distributions and applications. IEEE CL. 2008; 12(2): 112–114p.
Ermolova NY. Moment generating functions of the generalized μ and μ distributions and their applications to performance evaluations of communication systems. IEEE CL. 2008; 12(7): 502–4p.
Ermolova NY. Useful integrals for performance evaluation of communication systems in generalised -μ and -μ fading channels. IETC. 2009; 3(2): 303–308p.
Peppas K, Lazarakis F, Alexandridis A, Dangakis K. Error performance of digital modulation schemes with MRC diversity reception over -μ fading channels. IEEE TWC.2009; 8(10): 4974–4980p.
Milisic M, Hamza M, Behlilovic N, Hadzialic. Symbol error probability performance of L-branch maximal-ratio combiner for generalized -μ fading. Proceeding of IEEE VTC. 2009 Spring: 1–5p.
Badarneh OS. On the MGFs of Generalized eta-mu and kappa-mu Fading Channels. Proceeding of Second International Conference on Technological Advances in Electrical, Electronics and Computer Engineering. 2014; 137–140p.
Subadar R, Sahu PR. Performance of a L-MRC Receiver over Equally Correlated η−μ Fading Channels. IEEE TWC. 2011; 10(5): 1351–1355p.
Simon MK, Alouini MS. Digital Communication over Fading Channels. John Wiley & Sons, Inc.; 2005.
Dixit D, Sahu PR. Performance Analysis of Rectangular QAM With SC Receiver Over Nakagami-m Fading Channels. IEEE CL. 2014; 18(7): 1262–1265p
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