Abstract
In this paper, a comprehensive analysis of different modulation schemes over a generalized Rician fading model is conducted. The average symbol error probability (ASEP) results corresponding to different coherent and non-coherent modulation schemes are examined with respect to the parameters, K and n. For constant K, as parameter n increases, the ASEP decreases, and for constant n, the ASEP decreases as the value of K increases. Thus, the ASEP shows improvement with an increase in one parameter, while keeping other constant. The accuracy of our mathematical expressions is affirmed by the simulation results.
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References
T.S. Rappaport, Wireless Communications: Principles and Practice, 2nd edn. (Pearson Education Inc., 2002)
I. Jaafar, N. Youseff, H. Boujemma, A generalized Rice channel for modeling mobile satellite link, in IEEE First International Symposium on Control, Communication and Signal Processing, pp. 515–518 (2004)
N. Youssef, C.X. Wangt, M. Patzoldt, I. Jaafar, S. Tabbane, On the statistical properties of generalized Rice multipath fading channels, in Proceedings of IEEE Vehicular Technology Conference, pp. 162–165 (2004)
P. Loskot, N.C. Beaulieu, Performance analysis of coded MIMO-OFDM systems over generalized Ricean fading channels, in Proceedings of IEEE Canadian Conference on Electrical and Computer Engineering, pp. 1634–1639 (2006)
R.M. Radaydeh, M.M. Matalgah, Compact formulas for the average error performance of non-coherent M-ary orthogonal signals over generalized rician, Nakagami-m, and Nakagami-q fading channels with diversity reception. IEEE Trans. Commun. 56(1), 32–38 (2008)
P. Loskot, N.C. Beaulieu, Approximate performance analysis of coded OSTBC-OFDM systems over arbitrary correlated generalized Rician fading channels. IEEE Trans. Commun. 57(8), 2235–2238 (2009)
Q. Shi, Y. Karasava, On the correlated generalized Rician fading based on Gaussian class multivariate distributions based with generalized correlation. IEEE Commun. Lett. 16, 1925–1928 (2012)
J. Schlenker, J. Cheng, R. Schober, Asymptotically tight error rate bounds for EGC in correlated generalized Rician fading, in Proceedings of IEEE International Conference on Communications, pp. 3079–3084 (2013)
J. Schlenker, J. Cheng, R. Schober, Improving and bounding asymptotic approximations for diversity combiners in correlated generalized Rician fading. IEEE Trans. Wireless Commun. 13(2), 736–748 (2014)
K.N. Le, Opportunistic outdated relays under even-degree-of-freedom generalized rician fading. IEEE Trans. Veh. Technol. 68(3), 2472–2487 (2019)
K.N. Le, Distributions of even-degree-of-freedom generalized rician fading for opportunistic-relay selection employing MRC under outdated-CSI conditions. IEEE Trans. Commun. 67(9), 6441–6455 (2019)
V. Kansal, R. Singh, S. Singh, Exact BER for MDPSK and MPSK over generalized rician fading channel, in International Conference on Advanced Informatics for Computing Research, pp. 50–62 (2018)
M.K. Simon, M.S. Alouini, Digital Communications over Fading Channels, 2nd edn. (Wiley-IEEE Press, New York, NY, 2004)
J.G. Proakis, M. Salehi, Digital Communications (The McGraw-Hill, New York, NY, 2008)
I.S. Gradshteyn, I.M. Ryzhik, Table of Integrals, Series, and Products (Academic Press, USA, 2000)
A. Goldsmith, Wireless Communications (Cambridge University Press, New York, 2005)
J.W. Craig, A new, simple and exact result for calculating the probability of error for two-dimensional signal constellation, in Proceedings of IEEE MILCOM Conference, McLean, Virginia (1991)
J.G. Proakis, Digital Communications, 3rd edn. (McGraw Hill, New York, 1995)
A. Annamalai, C. Tellambura, Analysis of maximal-ratio and equal-gain diversity systems for m-ary QAM on generalized fading channels, in Proceedings of IEEE International Conference, Vancouver, Canada (1999)
R.F. Pawula, A new formula for MDPSK symbol error probability. IEEE Commun. Lett. 2, 271–272 (1998)
A. Annamalai, C. Tellambura, Error rates for Nakagami-m fading multichannel reception of binary and m-ary signals. IEEE Trans. on Commun. 49(1), 58–68 (2001)
A. Annamalai, C. Tellambura, V.K. Bhargava, Unified analysis of equal-gain diversity on Rician and Nakagami fading channels, in Proceedings of IEEE Wireless Communication and Networking Conference, New Orleans, USA (1999)
V. Kansal, S. Singh, Analysis of average symbol error probability of MDPSK, MFSK and MPSK in the Beaulieu-Xie Fading, in Proceedings of IEEE International Conference on Wireless Networks & Embedded Systems (WECON), Rajpura, India, pp. 1–5 (2018)
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Kansal, V., Singh, R., Singh, S. (2022). Exact SER for Modulation Schemes Over Generalized Rician Fading Channel. In: Dhawan, A., Tripathi, V.S., Arya, K.V., Naik, K. (eds) Recent Trends in Electronics and Communication. VCAS 2020. Lecture Notes in Electrical Engineering, vol 777. Springer, Singapore. https://doi.org/10.1007/978-981-16-2761-3_104
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DOI: https://doi.org/10.1007/978-981-16-2761-3_104
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