Abstract
Non-orthogonal multiple access (NOMA) is a promising method for enhancing the throughput in visible light communication (VLC) networks. In NOMA, signal power domain control, called gain ratio power allocation (GRPA), can significantly improve the user sum rate with full-time frequency resource utilization. In indoor NOMA-VLC networks, the scenario in which users are covered by VLC illuminants on the ceiling is typical. First, this paper proposes a novel GRPA strategy for a single VLC cell. Second, due to the difficulty of direct comparisons between our and previously reported GRPA strategies, this paper presents an alternative lower bound for comparability. Third, in two- and three- user cases, this paper analytically demonstrates that our NOMA-VLC GRPA strategy outperforms the aforementioned strategy, when successive interference cancellation (SIC) is used. Moreover, in the multi-user case, experimental results show that the average user data rate (AUDR) of multi-user cases under our strategy is better than that under the previous strategy. Finally, our paper provides both analytic and numerical results to prove that VLC single-cell system throughput under our strategy is better than that under the previous strategy. The proposed alternative lower bound is also proved to fit the original NOMA-VLC GRPA target asymptotically based on indoor VLC channels. Furthermore, to achieve the same AUDR, our strategy supports worse received conditions than does the previous strategy.
Highlights
While current wireless local area network (WLAN) implementations reach the wireless fidelity (WiFi) consumer market with triple-band demand, optical wireless communications (OWC), those based on indoor visible light communication (VLC) technology or light fidelity (LiFi), possess a broad spectrum and ubiquitous layout
4.2 Comparisons of two- and three-user cases In this subsection, we focus on the typical application scenario of VLC networks supporting two or three indoor family users
The authors present a novel gain ratio power allocation (GRPA) strategy of Non-orthogonal multiple access (NOMA) based on VLC channel gains and provide both analytic and numerical solutions
Summary
While current wireless local area network (WLAN) implementations reach the wireless fidelity (WiFi) consumer market with triple-band demand, optical wireless communications (OWC), those based on indoor visible light communication (VLC) technology or light fidelity (LiFi), possess a broad spectrum and ubiquitous layout. When used for WLAN, VLC [1] utilizes a lightemitting diode (LED) to transmit visible light data. Scenarios such as those involving several users at home, dozens of users in the office or hundreds of users in the mall may evolve into an indoor ultra dense network (UDN) if user density increases. For the example of an office, the corresponding employee density is 0.25 person/m2. With respect to high traffic density, sharing high-definition videos
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