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- Title
Performance analysis of downlink multipath multi-user NOMA-VLC system.
- Authors
Kumar, Ajit; Sharan, N.; Ghorai, S. K.
- Abstract
In the present paper, we have investigated performance of Non-Orthogonal Multiple Access based downlink multipath multi-user Visible Light Communication System. The Bit Error Rate (BER), sum rate and outage probability have been simulated using Line-Of-Sight (LOS) and LOS plus first reflection (L-R1) signal for two-user and three-user system. The simulation has been carried out for different values of semi-angle φ 1 / 2 of the LED i.e. 30 ∘ , 50 ∘ and 70 ∘ . In the two-user system, the LOS simulation result shows that the error probability is 7.49 × 10−3, 4.88 × 10−3 and 1.03 × 10−1 when φ 1 / 2 equals to70 ∘ , 50° and 30 ∘ respectively for user-1. And for user-2, the BER is found to be 4.89 × 10−2, 5.84 × 10−2 and 3.73 × 10−1 using φ 1 / 2 equals to70 ∘ , 50 ∘ and 30 ∘ . Thus, the optimal semi-angle φ 1 / 2 for user-1 and user-2 using LOS signal is 50 ∘ , 70 ∘ respectively. However, for the three-user system, the error probability increases when compared to two-user system and the optimal values of semi-angle for user-1 changes to 30 ∘ and for user-2 & user-3, it is 70 ∘ . Moreover, in two-user system with L-R1 signal, the optimal value is 70 ∘ for both user-1 and user-2. The SIC method fails to decode the user's signal when number of users increases to three in L-R1 signal case. Further, with the far user power allocation coefficient equal to 0.8, the average BER is found to be minimum for two-user system. The sum rate vs. normalized offset has been simulated for different values of semi-angle of the LED. The investigation shows that the maximum sum rate of 278.84 Mbps is achieved at φ 1 / 2 equals to 50 ∘ for the two-user system using LOS signal. We have also examined the effect of shadowing (blocked LOS signal) and found that sum rate is almost zero for small values of φ 1 / 2 i.e. 20 ∘ and 30 ∘ . Finally, for the semi-angle value of 30 ∘ the outage probability (for target rate beyond 3bps/Hz) reaches to 100 percent for both users.
- Subjects
OPTICAL communications; BIT error rate; MULTIUSER computer systems; ERROR probability; TELECOMMUNICATION systems; VISIBLE spectra
- Publication
Optical & Quantum Electronics, 2022, Vol 54, Issue 10, p1
- ISSN
0306-8919
- Publication type
Article
- DOI
10.1007/s11082-022-04068-x