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    Journals >Optical Communication Technology >Volume 48 >Issue 5 >Page 35 > Article
    • Optical Communication Technology
    • Vol. 48, Issue 5, 35 (2024)
    Optimization algorithm of service efficiency for VLC system based on supermartingale theory
    SUN Hongliang1, WANG Chao1, HU Xue1, and QIAN Lei2
    Author Affiliations
  • 1College of Information and Control Engineering, Jilin Institute of Chemical Technology, Jilin Jilin 132022, China
  • 2School of Electronic and Information Engineering, Tiangong University, Tianjin 300387, China
    • show less
    DOI: 10.13921/j.cnki.issn1002-5561.2024.05.006 Cite this Article
    SUN Hongliang, WANG Chao, HU Xue, QIAN Lei. Optimization algorithm of service efficiency for VLC system based on supermartingale theory[J]. Optical Communication Technology, 2024, 48(5): 35 Copy Citation Text show less
    References

    [1] ZHANG W, ZHAO X, ZHAO Y Q, et al. On security performance analysis of IRS-aided VLC/RF hybrid system[J]. Physical Communication, 2023, 61: 102176-1-102176-12.

    [2] LI X J, MIN C Y, GAO S S, et al. Experimental demonstration of a realtime multi-channel uplink VLC system [J]. Optics Communications, 2019, 453: 124420-1-124420-6.

    [3] ALRESHEEDI M T, HUSSEIN A T, ELMIRGHANI J M H. Uplink design in VLC systems with IR sources and beam steering[J]. IET Communications, 2016, 11(3): 1-20.

    [4] WANG L Q, HAN D H, ZHANG M, et al. A dynamic handover scheme based on bidirectional VLC channel in multi-user attocell networks [J]. EURASIP Journal on Wireless Communications and Networking, 2022, 2022(1): 1-15.

    [5] POLOCZEK F, CIUCU F. Scheduling analysis with martingales[J]. Performance Evaluation, 2014, 79: 56-72.

    [6] ZHAO L L, CHI X F, ZHU Y H. Martingales-based energy-efficient DALOHA algorithms for MTC networks with delay-insensitive/URLLC terminals co-existence[J]. IEEE Internet of Things Journal, 2018, 5(2): 1285-1298.

    [7] LIU T T, SUN L, CHEN R Q, et al. Martingale theory based optimal task allocation in heterogeneous vehicular networks[J]. IEEE Access, 2019, 7: 122354-122366.

    [8] OZCAN G, OZMEN M, GURSOY M C. QoS-driven energy-efficient power control with random arrivals and arbitrary input distributions [J]. IEEE Transactions on Wireless Communications, 2016, 16(1): 376-388.

    [9] HASHIM F A, HOUSSEIN E H, HUSSAIN K, et al. Honey badger algorithm: new metaheuristic algorithm for solving optimization problems[J]. Mathematics and Computers in Simulation, 2021, 192: 84-110.

    [10] MARWAN H, JRGEN P. VLC systems with fixed-rate transmissions under statistical queueing constraints[C]//11th International Symposium on Communication Systems, Networks and Digital Signal Processing, Budapest, Hungary. Piscataway: IEEE, 2018: 1-6.

    [11] POLOCZEK F, CIUCU F. Service- martingales:theory and applications to the delay analysis of random access protocols[C]//IEEE Conference on Computer Communications(INFOCOM2015), April 26-May 1, 2015, Hong Kong, China. New York: IEEE, 2015: 945-953.

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    SUN Hongliang, WANG Chao, HU Xue, QIAN Lei. Optimization algorithm of service efficiency for VLC system based on supermartingale theory[J]. Optical Communication Technology, 2024, 48(5): 35
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