Modulation Algorithm for Implicit Imaging Communications Based on Visible Light

Wuxun Gu; Lifang Feng

doi:10.3788/AOS202141.0306002

[1] Chang C H, Li C Y, Lu H H et al. A 100-gb/s multiple-input multiple-output visible laser light communication system[J]. Journal of Lightwave Technology, 32, 4723-4729(2014). http://www.opticsinfobase.org/jlt/abstract.cfm?uri=jlt-32-24-4121

[2] Ashok A, Jain S, Gruteser M et al. Capacity of pervasive camera based communication under perspective distortions. [C]∥2014 IEEE International Conference on Pervasive Computing and Communications, March 24-28, 2014, Budapest, Hungary. New York: IEEE, 112-120(2014).

[3] Zhang B S, Ren K, Xing G L et al. SBVLC: secure barcode-based visible light communication for smartphones[J]. IEEE Transactions on Mobile Computing, 15, 432-446(2016).

[4] Hossain M A, Islam A, Jang Y M. Pixel to signal conversion based invisible image sensor communication. [C]∥2016 Eighth International Conference on Ubiquitous and Future Networks, July 5-8, 2016, Vienna, Austria. New York: IEEE, 448-452(2016).

[5] Yuan W J, Dana K, Ashok A et al. Dynamic and invisible messaging for visual MIMO. [C]∥2012 IEEE Workshop on the Applications of Computer Vision, January 9-11, 2012, Breckenridge, CO, USA. New York: IEEE, 345-352(2012).

[6] Liu Y F, Hu Y P, Tang Y Q. Research on invisible transmission algorithm based on visible light[J]. Journal of Information Engineering University, 19, 317-320(2018).

[7] Li T X, An C K, Campbell A et al. HiLight: hiding bits in pixel translucency changes. [C]∥Proceedings of the 1st ACM MobiCom workshop on Visible light communication systems — VLCS '14, September 7, 2014, Maui, Hawaii, USA. New York: ACM, 45-50(2014).

[8] Li T X, An C K, Xiao X R et al. Demo: real-time screen-camera communication behind any scene. [C]∥Proceedings of the 13th Annual International Conference on Mobile Systems, Applications, and Services, May 18-22, 2015, Florence, Italy. New York: ACM, 197-211(2015).

[9] Wang A R, Li Z R, Peng C Y et al. InFrame++: achieve simultaneous screen-human viewing and hidden screen-camera communication. [C]∥Proceedings of the 13th Annual International Conference on Mobile Systems, Applications, and Services, May 18-22, 2015, Florence, Italy. New York: ACM, 181-195(2015).

[10] Li M C, Hu Y P, Yao X W et al. Frame synchronization compensation algorithm for visible light implicit imaging communication[J]. Acta Optica Sinica, 38, 0106002(2018).

[11] Adelson E H. Lightness perception and lightness illusions[J]. The New Cognitive Neurosciences, 3, 339-351(2000).

[12] Chubb C, Sperling G, Solomon J A. Texture interactions determine perceived contrast[J]. PNAS, 86, 9631-9635(1989).

[13] Nguyen V, Tang Y Q, Ashok A et al. High-rate flicker-free screen-camera communication with spatially adaptive embedding. [C]∥The 35th Annual IEEE International Conference on Computer Communications, April 10-14, 2016, San Francisco, CA, USA. New York: IEEE, 1-9(2016).

[14] Liu Y F. Research on invisible information for visible imaging light communications[D]. Zhengzhou: Information Engineering University, 19-26(2017).