OPTICAL AND QUANTUM ELECTRONICS, vol.56, pp.1454-1474, 2024 (SCI-Expanded)
Achieving fairness in power allocation is crucial for maximizing the
performance of Non-Orthogonal Multiple Access (NOMA) systems in Visible
Light Communication (VLC). However, existing power allocation methods
for NOMA-VLC often struggle to maintain fairness. This paper addresses
this challenge by introducing the Empirical Fair Optical Power
Allocation (EFOPA) method. EFOPA leverages a simplified mathematical
model to achieve maximum fairness among users, ensuring equitable data
rates even when channel conditions and illumination levels vary.
Furthermore, EFOPA significantly reduces computational complexity
compared to optimisation based approaches, making it suitable for
dynamic environments where users move frequently. Simulation results
demonstrate that EFOPA outperforms existing methods GRPA and NGDPA in
terms of fairness and maintains comparable sum-rate performance,
offering a robust and efficient solution for power allocation in
NOMA-VLC systems.