Analytical Models for the Computation of Error Probability of Multi-Level Phase Shift Keying Modulation Scheme

British Journal of Computer, Networking and Information Technology Pub Date : 2021-06-30 DOI:10.52589/bjcnit-lsfcmvli

A. Isaac, H. Dike

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Abstract

In this paper, analytical models for the computation of error probability (BER) of the Multi-level Phase Shift Keying (MPSK) modulation scheme is presented. Analytical models for computing MPSK bit error probability based on Q function, error function (erf) and complementary error function (erfc) are presented. Also, an analytical model for computing the symbol error rate for MPSK is presented. Furthermore, a generalized analytical expression for BER as a function of modulation order (M) and energy per bit to noise power density ratio (Eb/No) is presented. The BER was computed for various values of M (2 ≤ M ≤ 256) and Eb/No (0 dB ≤ Eb/No ≤ 14 Db). The results showed that at Eb/No =12 dB, a BER of 9.006E-09 is realized for M =2 and M =4 whereas BER of 1.056E-01 is realized for M = 256. Also, for the same M = 2 , the value of BER decreased from 1.2501E-02 at Eb/No = 4 dB to 9.0060E-09at Eb/No =12 dB. Generally, the results showed that for the MPSK modulation scheme, for a given value of Eb/No, the lower modulation order (M) has a lower BER and for a given modulation order, (M) the BER decreases as Eb/No increases.

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多级相移键控调制方案误差概率计算的解析模型

本文给出了多级相移键控(MPSK)调制方案误码率(BER)计算的解析模型。提出了基于Q函数、误差函数(erf)和互补误差函数(erfc)计算MPSK误码率的解析模型。同时，提出了一种计算MPSK码元错误率的解析模型。进一步，给出了误码率作为调制阶数(M)和每比特能量与噪声功率密度比(Eb/No)函数的广义解析表达式。计算了M(2≤M≤256)和Eb/No (0 dB≤Eb/No≤14 dB)的不同值下的BER。结果表明，在Eb/No =12 dB时，M =2和M =4的误码率为9.006E-09，而M = 256的误码率为1.056E-01。同样，当M = 2时，BER值从Eb/No = 4 dB时的1.2501E-02下降到Eb/No =12 dB时的9.0060 e -09。结果表明，对于MPSK调制方案，当Eb/No值一定时，调制阶数(M)越低，BER越低;当调制阶数(M)一定时，BER随Eb/No值的增大而减小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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British Journal of Computer, Networking and Information Technology

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