Open AccessDownlink Resource Allocation for Dynamic TDMA-Based VLC Systems
Author(s) -
Amr M. Abdelhady,
Osama Amin,
Anas Chaaban,
Basem Shihada,
MohamedSlim Alouini
Publication year - 2018
Publication title -
ieee transactions on wireless communications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.01
H-Index - 223
eISSN - 1558-2248
pISSN - 1536-1276
DOI - 10.1109/twc.2018.2877629
Subject(s) - visible light communication , telecommunications link , computer science , time division multiple access , resource allocation , quality of service , mathematical optimization , power budget , spectral efficiency , computer network , real time computing , power control , power (physics) , mathematics , engineering , channel (broadcasting) , physics , light emitting diode , quantum mechanics , electrical engineering
Visible light communications (VLCs), in general, and resource allocation for VLC networks in particular, have gained lots of attention recently. In this paper, we consider the resource allocation problem of a VLC downlink transmission system employing dynamic time division multiple access, where time and power variables are tuned to maximize the downlink spectral efficiency (SE). As for the operational conditions, we impose constraints on the average optical intensity, the energy budget, and the quality-of-service. To solve this non-convex problem, we transform the objective function into a difference of concave functions by solving a second-order differential inequality. Then, we propose a low-complexity algorithm to solve the resource allocation problem. Finally, we show by simulations the SE performance gains achieved by optimizing time and power allocation over the initial total power minimization solution for the considered system.
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