Research of Key Enabling Technologies for High-Speed Visible-Light Communication

Li Rongling; Shang Huiliang; Lei Yu; Wang Yiguang; Wang Yuanquan; Lu Xiaoyuan; Chi Nan

doi:10.3788/lop50.050003

[1] Klaus-Dieter Langer, Jelena Vui, Christoph Kottke et al.. Advances and prospects in high-speed information broadcast using phosphorescent white-light LEDs [C]. ICTON, 2009. Mo.B5.3

[2] Kaiyun Cui, Gang Chen, Zhengyuan Xu et al.. Line-of-sight visible light communication system design and demonstration [C]. CSNDSP 2010, 2010. OWC-21

[3] Abu Bakar Siddique, Muhammad Tahir. Joint brightness control and data transmission for visible light communication systems based on white LEDs [C]. 8th Annual IEEE Consumer Communications and Networking Conference, 2001

[4] Y. Tanaka, S. Haruyama, M. Nakagawa. Wireless optical transmissions with white colored LED for wireless home 1inks [C]. Indoor and Mobile Radio Communications, 2000, 2: 1325～1329

[5] Juan Pablo Conti, What you see is what you send [J]. Engineering & Technology, 2008, 3(19): 66～69

[6] Hoa Le Minh, Dominic O′Brien, Grahame Faulkner et al.. High-speed visible light communications using multiple-resonant equalization [J]. IEEE Photon. Technol. Lett., 2008, 20(14): JULY 15, 1243～1245

[7] Hoa Le Minh, Dominic O′Brien, Grahame Faulkner et al.. 80 Mbit/s visible light communications using pre-equalized white LED [C]. ECOC 2008, 2008. P.6.09

[8] Jelena Vui, Christoph Kottke, Stefan Nerreter et al.. 513 Mbit/s visible light communications link based on DMT-modulation of a white LED [J]. J. Lightwave Technol., 2010, 28(24): 3512～3518

[9] Christoph Kottke, Kai Habel, Liane Grobe et al.. Single-channel wireless transmission at 806 Mbit/s using a white-light LED and a PIN-based receiver [C]. ICTON, 2012. We.B4.1

[10] A. M. Khalid, G. Cossu, R. Corsini et al.. 1-Gb/s transmission over a phosphorescent white LED by using rate-adaptive discrete multitone modulation [J]. IEEE Photon. J., 2012, 4(5): 1465～1473

[11] Fang-Ming Wu, Chun-Ting Lin, Chia-Chien Wei et al.. 1.1-Gb/s white-LED-based visible light communication employing carrier-less amplitude and phase modulation [J]. IEEE Photon. Technol. Lett., 2012, 24(19): 1730～1732

[12] J. Grubor, S. C. J. Lee, K.-D. Langer et al.. Walewski, Wireless high-speed data transmission with phosphorescent white light LEDs [C]. ECOC 2007, 2007, 1～2

[13] S.-B. Park, D. K. Jung, H. S. Shin et al.. Information broadcasting system based on visible light signboard. Proc. Wireless Opt. Commun., 2007. 311～313

[14] Klaus-Dieter Langer, Jelena Vui, Christoph Kottke et al.. Exploring the potentials of optical-wireless communication using white LEDs [C]. ICTON, 2011. Tu.D5.2

[15] Hoa Le Minh, Dominic O′Brien, Grahame Faulkner et al.. 100-Mb/s NRZ visible light communications using a postequalized white LED [J]. IEEE Photon. Technol. Lett., 2009, 21(15): 1063～1065

[16] Ahmad Helmi Azhar, Tuan-Anh Tran, Dominic O′Brien. Demonstration of high-speed data transmission using MIMO-OFDM visible light communications [C]. IEEE Globecom 2010 Workshop on Optical Wireless Communications, 2010, 1052～1056

[17] J. Vui, C. Kottke, S. Nerreter et al.. White light wireless transmission at 200+ Mb/s net data rate by use of discrete-multitone modulation [J]. IEEE Photon. Technol. Lett., 2009, 21(20): 1511～1513

[18] Jelena Vui, Christoph Kottke, Kai Habel et al.. 803 Mbit/s visible light WDM link based on DMT modulation of a single RGB LED luminary [C]. OSA/OFC/NFOEC, 2011. OWB6

[19] Talha A. Khan, Muhammad Tahir, Ahmad Usman. Visible light communication using wavelength division multiplexing for smart spaces [C]. 2012 IEEE Consumer Communications and Networking Conference, 2012. 230～234

[20] Nan Chi. Full-duplex 64 QAM-SCM-OFDM transmission over RGB-LED-based visible light communication[C]. IWOO′2012, 2012. TA1

[21] Lubin Zeng, Dominic C. O′Brien, Hoa Le Minh et al.. High data rate multiple input multiple output (MIMO) optical wireless communications using white LED lighting [J]. IEEE J. Sel. Areas in Commun., 2009, 27(9): 1654～1662

[22] Dominic O′Brien. Optical multi-input multi-output systems for short-range free-space data transmission [C]. CSNDSP, 2010. 517～521

[23] Dominic O′Brien. Multi-input multi-output (MIMO) indoor optical wireless communications [C]. 2009 Conference on Signals, Systems and Computers, 2009. 1636～1639

[24] Yiguang Wang, Minglun Zhang, Yuanquan Wang et al.. Experimental demonstration of visible light communication based on sub-carrier multiplexing of multiple input single output OFDM [C]. OECC, 2012

[25] Fang Yan, Yuanquan Wang, Yiguang Wang et al.. Experimental demonstration of sub-carrier multiplexing-based MIMO-OFDM system for visible light communication [C]. APCC, 2012, 745～746

[26] Xin Lin, Kenichi Ikawa, Hirohashi Kazutoshi. High-speed full-duplex multiaccess system for LED-based wireless communications using visible light [C]. International Symposium on Optical Engineering and Photonic Technology: OEPT 2009, 2009,1～5

[27] Chen Zhiping, Liang Zhongcheng, Ma Zhengbei et al.. Modulation technology of the visible light parallel communication system based upon 2D-bar code [J]. Chinese J. Lasers, 2012, 39(s1): s105008

[28] Li Rongling, Tang Chanjuan, Wang Yuanquan et al.. A MISO-OFDM visible light communication system using LED based on subcarrier multiplexing [J]. Chinese J. Lasers, 2012, 39(11): 1105001

[29] Zhang Jiankun, Yang Yu, Liu Bo et al.. Design of home network based on visible light communication and power line carrier communication [J]. Laser & Optoelectronics Progress, 2011, 48(10): 100604

[30] Yang Yu, Zhang Jiankun, Liu Bo et al.. Study of the impact of LED nonlinearity on orthogonal frequency division multiplex based visible light communication systems [J]. Chinese J. Lasers, 2011, 38(8): 0805007

[31] Zhang Jiankun, Yang Yu, Chen Hongda. Modulation scheme analysis of indoor visible light communications [J]. Chinese J. Lasers, 2011, 38(4): 0405003

[32] L. Zeng, D. O′Brien, H. Le-Minh et al.. Improvement of date rate by using equalization in an indoor visible light communication system [C]. ICCSC, 2008. 678～682

[33] Natasha Shrestha, Muhammad Sohail, Charusluk Viphavakit at el.. Demonstration of visible light communications using RGB LEDs in an indoor environment [C]. ECTI-CON, 2010. 1159～1163

[34] S. Jivkova, B. Hristov, M. Kavehrad. Power-efficient multisport-diffuse multiple-input-multiple-output approach to broad-band optical wireless communications [J]. IEEE Trans. Veh. Technol., 2004, 53(3): 882～889

[35] S. Hranilovic, F. Kschischang. A pixelated MIMO wireless optical communication system [J]. IEEE J. Sel. Top. Quantum Electron., 2006, 12(4): 859～874

[36] M. Garfield, Chao Liang, T. Kurzweg et al.. MIMO space-time coding for diffuse optical communication [J]. Microwave and Optical Technol. Lett., 2006, 48(6): 1108～1110

[37] D. C. O′Brien. Indoor optical wireless communications: recent developments and future challenges [C]. SPIE, 2009, 7464: 74640B

CLP Journals