NOMA Visible Light Communication System with Angle Diversity Receivers

05/05/2020

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In this paper, a non-orthogonal multiple access (NOMA) visible light communication (VLC) system is investigated. The system uses angle diversity receivers (ADRs) to provide high data rates. The ADR has 4 branches, each directed to a different direction. An 8m x 4m sized room is modelled to study the resource allocation to users according to their channel conditions to maximize the data rate. The results show that using ADRs improves the data rate by an average of 35

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NOMA Visible Light Communication System with Angle Diversity Receivers

Power Control for Harmonic Utility in Non-Orthogonal Multiple Access based Visible Light Communications

Impact of user distribution on optical wireless systems

Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Sampling Visible GGX Normals with Spherical Caps

Simple Fair Power Allocation for NOMA-Based Visible Light Communication Systems

Intelligent Reflecting Surfaces for Enhanced NOMA-based Visible Light Communications

Data center top of rack switch to multiple spine switches optical wireless uplinks

NOMA Visible Light Communication System with Angle Diversity Receivers

Related Research

Power Control for Harmonic Utility in Non-Orthogonal Multiple Access based Visible Light Communications

Impact of user distribution on optical wireless systems

Rate-Splitting Unifying SDMA, OMA, NOMA, and Multicasting in MISO Broadcast Channel: A Simple Two-User Rate Analysis

Sampling Visible GGX Normals with Spherical Caps

Simple Fair Power Allocation for NOMA-Based Visible Light Communication Systems

Intelligent Reflecting Surfaces for Enhanced NOMA-based Visible Light Communications

Data center top of rack switch to multiple spine switches optical wireless uplinks