[1] Hui L, Darabi H, Banerjee P, et al. Survey of wireless indoor positioning techniques and systems［J］. IEEE Transactions on Systems, Man, and Cybernetics, Part C: Applications and Reviews,2007,37(6):1067—1080.

[2] Thomas Q, Wang Y, Ahmet S, et al. Analysis of an optical wireless receiver using a hemispherical lens with application in MIMO visible light communications［J］. Journal of Lightwave Technology,2013,31(11):1744—1754.

[3] 吴楠, 王旭东, 胡晴晴, 等. 基于多LED高精度室内可见光定位方法［J］. 电子与信息学报,2015,37(3):727—732.

    Wu Nan, Wang Xudong, Hu Qingqing, et al. Multiple LED based high accuracy indoor visible light positioning scheme［J］. Journal of Electronics and Information Technology,2015,37(3):727—732.

[4] Ngoc-Tan N, Nam-Hoang N, Van-Hung N, et al. Improvement of the VLC localization method using the extended kalman filter［C］∥TENCON 2014-2014 IEEE Region 10 Conference. Bangkok,Thailand:IEEE,2014:1—6.

[5] Zhang Xueli, Duan Jingyuan, Fu Yuegang, et al. Theoretical accuracy analysis of indoor visible light communication positioning system based on received signal strength indicator［J］. Journal of Lightwave Technology,2014,32(21):4180—4186.

[6] Erogluy Y.S, Guvency I, Palay N, et al. AOA-based localization and tracking in multi-element VLC systems［C］∥Wireless and Microwave Technology Conference (WAMICON). Florida,USA:IEEE,2015:1—5.

[7] Do T, Yoo M. TDOA-based indoor positioning using visible light［J］. Photonic Network Communications,2014,27(2):1—9.

[8] Dambul K D, Obrien D, Faulkner G. Indoor optical wireless MIMO system with an imaging receiver［J］. IEEE Photonics Technology Letters,2011,23(2):97—99.

[9] Nadeem U, Hassan N.U, Pasha M.A, et al. Indoor positioning system designs using visible LED lights: performance comparison of TDM and FDM protocols［J］. Electronics Letters,2015,51(1):72—74.

[10] Yang S H, Kim H S, Son Y H, et al. Three-dimensional visible light indoor localization using AOA and RSS with multiple optical receivers［J］. Journal of Lightwave Technology,2014,32(14):2480—2485.

[11] Wang Lixuan, Guo Caili, Luo Pengfei, et al. Indoor visible light localization algorithm based on received signal strength ratio with multi-directional LED array［C］∥2017 IEEE International Conference on Commications Workshops(ICC Workshops).Paris,France:IEEE,2017:138—143.

[12] Wang Lixuan, Guo Caili. Indoor visible light localization algorithm with multi-directional PD array［C］∥2017 IEEE Globecom Workshops(GC Wkshps).Singapore,Singapore:IEEE,2017:1—6.

[13] Xu Yinfan, Zhao Jiaqi, Shi Jianyang, et al. Reversed three-dimensional visible light indoor positioning utilizing annular receivers with multi-photodiodes［J］. Sensors,2016,16(8):1254.

[14] Xu Wei, Wang Jia, Shen Hong, et al. Indoor positioning for multi-photodiode device using visible-light communications［J］. IEEE Photonics Journal,2016,8(1):1—11.

[15] Steendam H, Wang T Q, Armstrong J. Cramer-Rao bound for indoor visible light positioning using an aperture-based angular-diversity receiver［C］∥2016 IEEE International Conference on Communications (ICC).Kuala Lumpur:IEEE,2016:1—6.

[16] Yang S H, Kim H S, Son Y H, et al. Three-dimensional visible light indoor localization using AOA and RSS with multiple optical receivers［J］. Journal of Lightwave Technology,2014,32(14):2480—2485.

[17] Huang Ting, Gao Xumin, Guo Yanqing, et al. Visible light indoor positioning fashioned with a single tilted optical receiver［C］∥2015 14th International Conference on Optical Communications and Networks (ICOCN).Nanjing,China:IEEE,2015:1—4.

[18] Lee K, Park H, Barry J R. Indoor channel characteristics for visible light communications［J］. IEEE Communications Letters,2011,15(2):217—219.

[19] 刘让龙. 可见光通信中的室内定位技术研究［D］. 北京:北京邮电大学,2013.

    Liu Ranglong. Research of indoor indoor positioning with visible light communication［D］. Beijing: Beijing University of Posts and Telecom-munications,2013.

[20] 江运力. 室内可见光通信定位技术研究［D］. 南京:南京邮电大学,2014.

    Jiang Yunli. Indoor visible light communication positioning technology［D］. Nanjing: Nanjing University of Posts and Telecommunications,2014.