首页|An Investigation of the MIMO Space Time Block Code Based Selective Decode and Forward Relaying Network over η-μ Fading Channel Conditions

An Investigation of the MIMO Space Time Block Code Based Selective Decode and Forward Relaying Network over η-μ Fading Channel Conditions

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In this paper, we examine the end-to-end average pairwise error probability (PEP) and output probability (OP) performance of the maximum ratio combining (MRC) based selective decode and forward (S-DF) system over an η-μ scattering environment considering additive white Gaussian noise (AWGN). The probability distribution function (PDF) and cumulative distribution function (CDF) expressions have been derived for the received signal-to-noise (SNR) ratio and the moment generating function (MGF) technique is used to derive the novel closed-form (CF) average PEP and OP expressions. The analytical results have been further simplified and are presented in terms of the Lauricella function for coherent complex modulation schemes. The asymptotic PEP expressions are also derived in terms of the Lauricella function, and a convex optimization (CO) framework has been developed for obtaining optimal power allocation (OPA) factors. Through simulations, it is also proven that, depending on the number of multi-path clusters and the modulation scheme used, the optimized power allocation system was essentially independent of the power relation scattered waves from the source node (SN) to the destination node (DN). The graphs show that asymptotic and accurate formulations are closely matched for moderate and high SNR regimes. PEP performance significantly improves with an increase in the value of η for a fixed value of μ. The analytical and simulation curves are in close agreement for medium-to-high SNR values.

5GMIMOMRCnon-homogeneous fading channelPEPS-DFSNR

Ravi Shankar、V. V. Raghava Raman、Kantilal Pitamber Rane、Sarojini B. K.、Rahul Neware

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Department of Electronics and Communication Engineering, Madanapalle Institute of Technology and Science, Andhra Pradesh, 517325, India

Department of Computer Science, Aurora's Degree and PG College, Chikkadapally, Hyderabad, India

Department of Electronics and Communication, K L University, Hyderabad, India

Department of ECE, Basaveshwar Engineering College, Bagalkot-587103, Karnataka, India

Hogskulen pa Vestlandet, Bergen, Norway

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2022

10.26636/jtit.2022.150421

Journal of Telecommunications and Information Technology

Journal of Telecommunications and Information Technology

ISSN:1509-4553
年,卷(期):2022.(1)