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    Journals >Optoelectronics Letters >Volume 18 >Issue 2 >Page 85 > Article
    • Optoelectronics Letters
    • Vol. 18, Issue 2, 85 (2022)
    Research on mobile phone swaying and receiving position in optical camera communication
    Keyu JIANG, Xuefen CHI*, Fenglei JI, and Shuai and LI
    Author Affiliations
  • Department of Communications Engineering, Jilin University, Changchun 130012, China
    • show less
    DOI: 10.1007/s11801-022-1088-8 Cite this Article
    JIANG Keyu, CHI Xuefen, JI Fenglei, and LI Shuai. Research on mobile phone swaying and receiving position in optical camera communication[J]. Optoelectronics Letters, 2022, 18(2): 85 Copy Citation Text show less
    References

    [1] SHIVANI R T, STANISLAV Z, RAFAEL P J, et al. Spatial frequency-based angular behavior of a short-range flicker-free MIMO-OCC link[J]. Applied optics, 2020, 59(33):10357-10368.

    [2] WANG S, CHI X F, ZHAO L L, et al. Demodulation algorithm with movement robustness for optical camera communications[J]. Optoelectronics letters, 2019, 15(6):450-453.

    [3] NAM T L, MOHAMMAD A H, YEONG M J. A survey of design and implementation for optical camera communication[ J]. Signal process:image communication, 2017, 53:95-109.

    [4] TELI S R, MATUS V, ZVANOVEC S, et al. Optical camera communications for IoT-rolling-shutter based MIMO scheme with grouped LED array transmitter[J]. Sensors, 2020, 20(12):3361-3375.

    [5] HOSSAIN M A, ISLAM A, YEONG M J. Effects of viewing angle between camera and display in invisible image sensor communication[C]//International Conference on Information and Communication Technology Convergence (ICTC), October 19-21, 2016, Jeju, Korea (South). New York:IEEE, 2016:1221-1223.

    [6] YANG Y B, HAO J, LUO J. CeilingTalk:lightweight indoor broadcast through LED-camera communication[J]. IEEE transactions on mobile computing, 2017, 16(12):3308-3319.

    [7] LI T Y, CHI X F, SHI H Y, et al. Rolling shutter aided optical camera communications with increasing communication distance[J]. Optoelectronics letters, 2019, 15(5):0364-0367.

    [8] YU K, HE J, ZHENG H. A decoding scheme based on CNN for mobile optical camera communication[J]. Applied optics, 2020, 59(23):7109-7113.

    [9] VINCENT E, LAGANIERE R. Detecting planar homographies in an image pair[C]//Proceedings of the 2nd International Symposium on Image and Signal Processing and Analysis, in conjunction with 23rd International Conference on Information Technology Interfaces, June 19-21, 2001, Pula, Croatia. New York:IEEE, 2001: 182-187.

    [10] SHI J, HE J, JIANG Z W, et al. Enabling user mobility for optical camera communication using mobile phone[J]. Optics express, 2018, 26(17):21762-21767.

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    JIANG Keyu, CHI Xuefen, JI Fenglei, and LI Shuai. Research on mobile phone swaying and receiving position in optical camera communication[J]. Optoelectronics Letters, 2022, 18(2): 85
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