[1] T KOMINE, M NAKAGAWA. Fundamental analysis for visible-light communication system using LED lights. IEEE Transactions on Consumer Electronics, 50, 100-107(2004).
[2] M MAHEEPALA, A Z KOUZANI, M A JOORDENS. Light-based indoor positioning systems: a review. IEEE Sensors Journal, 20, 3971-3995(2020).
[3] Xingbang WU, Shangsheng WEN, Jun HUA. High precision 3D positioning system design using visible light communication based on ant colony algorithm. Acta Photonica Sinica, 46, 1206004(2017).
[4] A CHAABNA, A BABOURI, X ZHANG et al. Study of RSS-based indoor positioning system for target using visible light communication. Transactions on Electrical Engineering, 19, 1-11(2021).
[5] Rui XU. Error modeling and performance analysis of TOA-Based indoor visible light positioning(2020).
[6] E KAZIKLI, S GEZICI. Hybrid TDOA/RSS based localization for visible light systems. Digital Signal Processing, 86, 19-28(2018).
[7] C Y HONG, Y C WU, Y LIU et al. Angle-of-Arrival (AOA) Visible Light Positioning (VLP) system using solar cells with third-order regression and ridge regression algorithms. IEEE Photonics Journal, 12, 7902605(2020).
[8] W XU, J WANG, H SHEN et al. Indoor positioning for multiphotodiode device using visible-light communications. IEEE Photonics Journal, 8, 1-11(2015).
[9] X H YU, J P WANG, H M LU. Single light-emitting diode-based high-accuracy indoor positioning system using symmetrical optical receiver. Optical Engineering, 57, 106104(2018).
[10] W HAN, J WANG, H LU et al. Visible light indoor positioning via an iterative algorithm based on an M5 model tree. Applied Optics, 59, 10194-10200(2020).
[11] F I K MOUSA, H LEMINH, Z GHASSEMLOOY et al. Indoor localization system utilizing two visible light emitting diodes. Optical Engineering, 55, 116114(2016).
[12] F MOUSA, N ALMAADEED, K BUSAWON et al. Indoor visible light communication localization system utilizing received signal strength indication technique and trilateration method. Optical Engineering, 57, 016107(2018).
[13] Weipeng GUAN, Yuxiang WU, Shangsheng WEN et al. Indoor positioning technology of visible light communication based on CDMA modulation. Acta Optica Sinica, 36, 73-81(2016).
[14] J CHEN, W J SUN, L F MA et al. Anti-shadowing design of visible light communication and positioning systems with equivalent virtual lamps(2020).
[15] Shuaifang XIAO, Kaizhi HUANG, Zhou ZHONG et al. Spatial correlation analysis of MIMO channel in indoor visible light communication. Journal of Electronics&Information Technology, 36, 2117-2123(2014).
[16] Chunyong YANG, Chengzhi SONG, Yunlong LV et al. Optimization of angle diversity for a pyramid receiver in MIMO visible light communications. Journal of South-Central University for Nationalities (Natural Science Edition), 38, 432-439(2019).
[17] Yong CHEN, Yichao LI, Huanlin LIU. Moving target positioning method based on visible light communication in time division multiplexing network. Chinese Journal of Lasers, 44, 1006003(2017).
[18] B LIN, T XUAN, Z GHASSEMLOOY et al. Experimental demonstration of an indoor VLC positioning system based on OFDMA. IEEE Photonics Journal, 9, 1-9(2017).
[19] S H YANG, E M JUNG, S K HAN. Indoor location estimation based on LED visible light communication using multiple optical receivers. IEEE Communications Letters, 17, 1834-1837(2013).