[1] XIAO Y, GUAN W, WEN S, et al. The optical bar code detection method based on optical camera communication using discrete Fourier transform[J]. IEEE access, 2020, 8:123238-123252.
[2] ISLAM A, HOSSAN M T, NGUYEN T, et al. Adaptive spatial-temporal resolution optical vehicular communication system using image sensor[J]. International journal of distributed sensor networks, 2017, 13(11):1550147717743698.
[3] LE N T, HOSSAIN M, JANG Y M. A survey of design and implementation for optical camera communication[J]. Signal processing:image communication, 2017, 53:95-109.
[4] GOTO Y, TAKAI I, YAMAZATO T, et al. A new automotive VLC system using optical communication image sensor[J]. IEEE photonics journal, 2016, 8(3):1-17.
[5] TELI S, CAHYADI W A, CHUNG Y H. High-speed optical camera V2V communications using selective capture[J]. Photonic network communications, 2018, 36(2):210-216.
[6] DO T H, YOO M. Performance analysis of visible light communication using CMOS sensors[J]. The journal of Korean institute of communications and information science, 2016, 40(3):309.
[7] ASHOK A, GRUTESER M, MANDAYAM N, et al. Characterizing multiplexing and diversity in visual MIMO[C]//2011 45th Annual Conference on Information Sciences and Systems, March 23-25, 2011, Baltimore, USA. New York:IEEE, 2011:1-6.
[8] LE N T, JANG Y M. MIMO architecture for optical camera communications[J]. Journal of Korean institute of communications & information ences, 2017, 42(1):8-13.
[9] ZHOU B, HE Y. Fast circle detection using spatial decomposition of Hough transform[J]. International journal of pattern recognition and artificial intelligence, 2017, 31(3):1755006.
[10] YU X Y, GUO Y B, CHEN G, et al. Real-time point feature extraction based on connected components labeling and distributed computing[J]. Acta optics, 2015, 35(2):104-114. (in Chinese)