Open AccessComparative study of BER With NOMA system in different fading channels
Author(s) -
Roselin Suganthi Jesudoss,
Rajeswari Kaleeswaran,
Manjunathan Alagarsamy,
Dineshkumar Thangaraju,
Dinesh Paramathi Mani,
S. Kannadhasan
Publication year - 2022
Publication title -
bulletin of electrical engineering and informatics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.251
H-Index - 12
ISSN - 2302-9285
DOI - 10.11591/eei.v11i2.3311
Subject(s) - rician fading , noma , computer science , nakagami distribution , rayleigh fading , bit error rate , channel (broadcasting) , spectral efficiency , fading , telecommunications , signal to noise ratio (imaging) , telecommunications link , electronic engineering , engineering
In today's world, cellular communication is rapidly expanding. One of the most common strategies for assigning the spectrum of users in cellular communication is the multiple access strategy. Because the number of people using cellular communication is continually expanding, spectrum allotment is an important factor to consider. To access the channel in fifth-generation mobile communication, a method known as non-orthogonal multiple access (NOMA) is used. NOMA is a promising method for improving sum rate and spectral efficiency. In this research, we used the NOMA approach to compare the bit error rate (BER) versus signal to noise ratio (SNR) of two users in rayleigh, rician, and nakagami fading channels. A single antenna with two users is used in this NOMA system. Two users can tolerate the same frequency with differing power levels in the power domain using 5G NOMA technology. Non-orthogonality ensures that NOMA users are treated equally to OMA users. According to the MATLAB simulation findings, the BER vs. SNR of two user NOMA in the Nakagami channel is substantially better than the rayleigh and rician channels.