Decoding algorithm with multiple features based on optical camera communication system

Junming ZHANG; Wenxiao SHI; Qiang WANG; Anqi LIU; Wei and LIU

doi:10.1007/s11801-023-2108-z

[1] SHAABAN K, SHAMIM M H M, ABDUR-ROUF K. Visible light communication for intelligent transportation systems：a review of the latest technologies[J]. Journal of traffic and transportation engineering-English edition, 2021, 8(4)：483-492.

[2] TAMANGL D, WOOK K B. Optical camera communication for vehicular applications：a survey[J]. IEEE transactions on smart processing & computing, 2021,10(2)：136-145.

[3] CAHYADI W A, CHUNG Y H, GHASSEMLOOY Z, et al. Optical camera communications ： principles, modulations, potential and challenges[J]. Electronics, 2020, 9(9).

[4] LIU A Q, SHI W X, OUYANG M, et al. Characterization of optical camera communication based on a comprehensive system model[J]. IEEE journal of lightwave technology, 2022, 40(18)：6087-6100.

[5] HASAN M K, ALI M O, RAHMAN M H, et al. Optical camera communication in vehicular applications：a review[J]. IEEE transactions on intelligent transportation systems, 2021, 23(7)：6260-6281.

[6] WU H N, CHEN Y C, XUE G T, et al. OnionCode： enabling multi-priority coding in LED-based optical camera communications[C]//2022 IEEE Conference on Computer Communications, May 2-5, 2022, London, UK. New York：IEEE, 2022：21817468.

[7] SHAHJALAL M, HASAN M K, ISLAM M M, et al. A two-stage power allocation-based NOMA architecture for optical camera communication[J]. IEEE systems journal, 2021,15(3)：4421-4430.

[8] ESFAHANI N M, GHOLAMI A, KORDAVANI N S, et al. The impact of camera parameters on the performance of V2V optical camera communications[C]//2020 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP), July 20-22, 2020, Porto, Portugal. New York：IEEE, 2020：20165374.

[9] MATUS V, GUERRA V, JURADO-VERDU C, et al. Experimental evaluation of an analog gain optimization algorithm in optical camera communications[C]//2020 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP), July 20-22, 2020, Porto, Portugal. New York：IEEE, 2020：20165456.

[10] DO T H, YOO M. The necessity of LED to ambient light ratio optimization for vehicular optical camera communication[J]. Sensors, 2020, 20(1).

[11] NGUYEN D T, PARK Y. Performance enhancement of optical camera communication system using optical camera communication coding and region-of-interest detection[J]. IET optoelectronics, 2021,15(6)：255-263.

[12] CHOW C W, LIU Y, YEH C H, et al. Display light panel and rolling shutter image sensor based optical camera communication (OCC) using frame-averaging background removal and neural network[J]. Journal of lightwave technology, 2021, 39(13)：4360-4366.

[13] JEONG S, MIN J, PARK Y. Indoor positioning using deep-learning-based pedestrian dead reckoning and optical camera communication[J]. IEEE access, 2021, 9： 133725-133734.

[14] SUN Y F, SHI W X, SHAO X R, et al. Implementation and decoding method of OCC system based on MIMO[J]. Optoelectronics letters, 2022, 18(1)：18-23.

[15] DO T H, YOO M. A multi-feature LED bit detection algorithm in vehicular optical camera communication[J]. IEEE access, 2019, 7：95797-95811.

[16] OTSU N. Threshold selection method from gray-level histograms[J]. IEEE transactions on systems man and cyberneticsjavascript:void(0), 1979, 9(1)：62-66.