[1] Komine T, Nakagawa M. Integrated system of white LED visible-light communication and power-line communication[J]. IEEE Transactions on Consumer Electronics, 49, 71-79(2003).

[2] Song X Q, Wang M Y, Xing S et al. Progress of orthogonal frequency division multiplexing based on visible light communication[J]. Laser & Optoelectronics Progress, 55, 120008(2018).

[3] Jia K J, Zhang S Q. Influence of multiuser interference on performances of direct-current-biased optical orthogonal frequency division multiplexing code division multiple access system for visible light communication[J]. Laser & Optoelectronics Progress, 56, 110604(2019).

[4] Yang Y F, Jiang M Z, Zhang Y et al. Design of full duplex visible light communication system based on single light source[J]. Laser & Optoelectronics Progress, 56, 010603(2019).

[5] Ding J P. I C L, Zhang C, et al. Evaluation of outdoor visible light communications links using actual LED street luminaries[M]. Biometric Recognition, Cham: Springer, 572-579(2018).

[6] Luo J H, Fan L Y, Li H S. Indoor positioning systems based on visible light communication: state of the art[J]. IEEE Communications Surveys & Tutorials, 19, 2871-2893(2017). http://ieeexplore.ieee.org/document/8015106

[7] Ndjiongue A R, Ferreira H C, Song J et al. Hybrid PLC-VLC channel model and spectral estimation using a nonparametric approach[J]. Transactions on Emerging Telecommunications Technologies, 28, e3224(2017). http://onlinelibrary.wiley.com/doi/10.1002/ett.3224

[8] Nlom S M, Ndjiongue A R, Ouahada K. Cascaded PLC-VLC channel: an indoor measurements campaign[J]. IEEE Access, 6, 25230-25239(2018). http://ieeexplore.ieee.org/document/8352541

[9] Kashef M, Abdallah M, Al-Dhahir N. Transmit power optimization for a hybrid PLC/VLC/RF communication system[J]. IEEE Transactions on Green Communications and Networking, 2, 234-245(2018). http://ieeexplore.ieee.org/document/8110682/

[10] Feng S M, Bai T, Hanzo L. Joint power allocation for the multi-user NOMA-downlink in a power-line-fed VLC network[J]. IEEE Transactions on Vehicular Technology, 68, 5185-5190(2019). http://ieeexplore.ieee.org/document/8669970/

[11] Ma H, Lampe L, Hranilovic S. Hybrid visible light and power line communication for indoor multiuser downlink[J]. IEEE/OSA Journal of Optical Communications and Networking, 9, 635-647(2017). http://ieeexplore.ieee.org/document/8005555

[12] Song J, Ding W B, Yang F et al. An indoor broadband broadcasting system based on PLC and VLC[J]. IEEE Transactions on Broadcasting, 61, 299-308(2015). http://ieeexplore.ieee.org/document/7052407/

[13] Gao S L, Zhang J, Yang H. A reference channel model of indoor integrated power line communication and VLC systems[J]. Computer Engineering and Science, 40, 1062-1066(2018).

[14] Song J, Liu S C, Zhou G X et al. A cost-effective approach for ubiquitous broadband access based on hybrid PLC-VLC system[C]∥2016 IEEE International Symposium on Circuits and Systems (ISCAS), May 22-25, 2016, Montreal, QC, Canada., 2815-2818(2016).

[15] Chen M C, Feng Y H, You S H et al[J]. Performance analysis of channel estimation for hybrid PLC & VLC system Study on Optical Communications, 2017, 3-6.

[16] Ding W B, Yang F, Yang H et al. A hybrid power line and visible light communication system for indoor hospital applications[J]. Computers in Industry, 68, 170-178(2015).

[17] Ma X, Gao J N, Yang F et al. integrated power line and visible light communication system compatible with multi-service transmission[J]. Iet Communications, 11, 104-111(2017).

[18] Gao J N, Yang F, Ding W B. Novel integrated power line and visible light communication system with bit division multiplexing[C]∥2015 International Wireless Communications and Mobile Computing Conference (IWCMC), August 24-28, 2, 680-684(2015).

[19] Yang L W, Li J W, Zhang J N. Hybrid visible light communications (VLC) and PLC system[C]∥2017 Opto-Electronics and Communications Conference (OECC) and Photonics Global Conference (PGC), July 31-August 4, 2017, Singapore, Singapo, 1-2(2017).

[20] Ma H, Lampe L, Hranilovic S. Integration of indoor visible light and power line communication systems[C]∥2013 IEEE 17th International Symposium on Power Line Communications and Its Applications, March 24-27, 2013, Johannesburg, S, 291-296(2013).

[21] Ma H, Lampe L, Hranilovic S. Subcarrier allocation in hybrid visible light and power line communication system[C]∥2016 IEEE International Symposium on Circuits and Systems (ISCAS), May 22-25, 2016, Montreal, QC, Canada., 2819-2822(2016).

[22] Kubjana M D, Shongwe T, Ndjiongue A R. Hybrid PLC-VLC based on ACO-OFDM[C]∥2018 International Conference on Intelligent and Innovative Computing Applications (ICONIC), December 6-7, 2018, Plaine Magnien, Mauritius., 1-5(2018).

[23] Chen M C, You S H, Wang Y et al. Performance analysis of pilot-based OFDM channel estimation for hybrid PLC&VLC system[C]∥2016 15th International Conference on Optical Communications and Networks (ICOCN), September 24-27, 2016, H, 1-3(2016).

[24] Alavi S E, Rezaie H. Supa'At A S M. Application of OFDM on integrated system of visible free space optic with PLC[C]∥2010 IEEE Asia-Pacific Conference on Applied Electromagnetics (APACE), November 9-11, 2010, Port Dickson, 1-5(2010).

[25] Ndjiongue A R, Shongwe T, Ferreira H C et al. Cascaded PLC-VLC channel using OFDM and CSK techniques[C]∥2015 IEEE Global Communications Conference (GLOBECOM), December 6-10, 2015, San Diego, CA, USA., 1-6(2015).

[26] Ndjiongue A R, Ferreira H C, Shongwe T. Inter-building PLC-VLC integration based on PSK and CSK techniques[C]∥2016 International Symposium on Power Line Communications and Its Applications (ISPLC), March 20-23, 2016, Bottrop, Germany., 31-36(2016).

[27] Nlom S M, Ouahada K, Ndjiongue A R et al. Evaluation of the SFSK-OOK integrated PLC-VLC system under the influence of sunlight[C]∥2017 International Symposium on Networks, Computers and Communications (ISNCC), May 16-18, 2017, Marrakech, Moro, 1-5(2017).

[28] Ndjiongue A R, Ferreira H C, Ouahada K et al. Low-complexity SOCPBFSK-OOK interface between PLC and VLC channels for low data rate transmission applications[C]∥18th IEEE International Symposium on Power Line Communications and Its Applications, M, 226-231(2014).

[29] Amirshahi P, Kavehrad M. Broadband access over medium and low voltage power-lines and use of white light emitting diodes for indoor communications[C]∥CCNC 2006.2006 3rd IEEE Consumer Communications and Networking Conference, , 897-901(2006).

[30] Zhang J K, Yang Y, Liu B et al. Design of home network based on visible light communication and power line carrier communication[J]. Laser & Optoelectronics Progress, 48, 100604(2011).

[31] Liu Q Y, Sun D D, Zang Z B et al[J]. Design of visible light and power line communication protocol for electric power tunnel inspection Automation & Instrumentation, 2018, 133-137.

[32] Xu Z. An autonomous intelligent UAV line inspection system with LIDAR navigation[J]. Zhejiang Electric Power, 36, 44-47(2017).

[33] Fan H, Li S H, Meng L et al. Design and development of communication and positioning system of cable trench based on VLC+PLC[J]. Electric Power Information and Communication Technology, 14, 105-108(2016).

[34] Jani M, Garg P, Gupta A. Performance analysis of a co-operative PLC/VLC system with multiple access points for indoor broadcasting[J]. AEU - International Journal of Electronics and Communications, 103, 64-73(2019).

[35] Gheth W, Rabie K M, Adebisi B et al. Performance analysis of integrated power-line/visible-light communication systems with AF relaying[C]∥2018 IEEE Global Communications Conference (GLOBECOM), December 9-13, 2018, Abu Dhabi, United Arab, 1-6(2018).

[36] Jani M, Gargt P, Gupta A. Modeling and outage analysis of DF relay assisted mixed PLC-VLC system[C]∥2018 Twenty Fourth National Conference on Communications (NCC), February 25-28, 2018, Hyderabad, India., 1-5(2018).

[37] Gheth W, Rabie K M, Adebisi B et al. On the performance of DF-based power-line/visible-light communication systems[C]∥2018 International Conference on Signal Processing and Information Security (ICSPIS), November 7-8, 2018, DUBAI, United, 1-4(2018).

[38] Jani M, Garg P, Gupta A. Outage analysis of an asymmetric dual hop PLC-VLC system for indoor broadcasting[C]∥2019 National Conference on Communications (NCC), February 20-23, 2019, Bangalore, India., 1-6(2019).

[39] Kashef M, Abdallah M, Al-Dhahir N et al. On the impact of PLC backhauling in multi-user hybrid VLC/RF communication systems[C]∥2016 IEEE Global Communications Conference (GLOBECOM), December 4-8, 2016, Washington, DC, USA., 1-6(2016).

[40] Kashef M, Torky A, Abdallah M et al. On the achievable rate of a hybrid PLC/VLC/RF communication system[C]∥2015 IEEE Global Communications Conference (GLOBECOM), December 6-10, 2015, San Diego, CA, USA., 1-6(2015).

[41] Rosolem JB, Penze RS, FloridiaC, et al.FSO applied to optical fiber sensing: a field test demonstration[C]∥2017 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC), August 27-30, 2017, Aguas de Lindoia, Brazil. New York: IEEE Press, 2017: 1- 5.

[42] Rosolem J B, Bassan F R, Penze R S et al. Optical sensing in high voltage transmission lines using power over fiber and free space optics[J]. Optical Fiber Technology, 26, 180-183(2015).

[43] Floridia C, Rosolem J B, Leonardi A A et al. Temperature sensing in high voltage transmission lines using fiber Bragg grating and free-space-optics[J]. Proceedings of SPIE, 8722, 87220N(2013).

[44] Rende D, Nayagam A, Afkhamie K et al. Noise correlation and its effect on capacity of inhome MIMO power line channels[C]∥2011 IEEE International Symposium on Power Line Communications and Its Applications, April 3-6, 2011, Udine, Italy., 60-65(2011).

[45] HashmatR, PaganiP, ZeddamA, et al.MIMO communications for inhome PLC networks: measurements and results up to 100 MHz[C]∥ISPLC 2010, March 28-31, 2010, Rio de Janeiro, Brazil. New York: IEEE Press, 2010: 120- 124.

[46] Schneider D, Schwager A, Speidel J et al. Implementation and results of an MIMO PLC feasibility study[C]∥2011 IEEE International Symposium on Power Line Communications and Its Applications, April 3-6, 2011, Udine, Italy., 54-59(2011).

[47] Cano C, Pittolo A, Malone D et al. State of the art in power line communications: from the applications to the medium[J]. IEEE Journal on Selected Areas in Communications, 34, 1935-1952(2016). http://ieeexplore.ieee.org/document/7467440/

[48] Laguna G, Barron R. Survey on indoor power line communication channel modeling[C]∥2008 Electronics, Robotics and Automotive Mechanics Conference (CERMA'08), September 30-October 3, 2008,, 163-168(2008).

[49] Zimmermann M, Dostert K. Analysis and modeling of impulsive noise in broad-band powerline communications[J]. IEEE Transactions on Electromagnetic Compatibility, 44, 249-258(2002).

[50] Ding J P. I C L, Chen X F, et al. Asymmetrical emission beams based visible light communication access points design[C]∥2019 28th Wireless and Optical Communications Conference (WOCC), May 9-10, 2019, Beijing, , 1-5(2019).

[51] Ding J P. I C L, Zhang H, et al. Cells planning of VLC networks using non-circular symmetric optical beam[C]∥ICC 2019 - 2019 IEEE International Conference on Communications (ICC), May 20-24, 2019, Shanghai, Chi, 1-6(2019).

[52] Ding J P. I C L, Xu Z Y. Indoor optical wireless channel characteristics with distinct source radiation patterns[J]. IEEE Photonics Journal, 8, 1-15(2016).

[53] You C X, Hu Q S, Li S D et al. Light source distribution for visible light communication in coal mine working face based on position and power co-optimization[J]. Chinese Journal of Lasers, 46, 0406001(2019).

[54] Chen Y, Shen Q X, Liu H L. Optimization algorithm of receiver optical power uniformity in indoor visible light communication[J]. Chinese Journal of Lasers, 45, 0506003(2018).

[55] Wang J A, Che Y, Lü C et al. LED layout for indoor visible light communication based on energy optimization[J]. Acta Optica Sinica, 37, 0806003(2017).

[56] Kim S M, Baek M W, Nahm S H. Visible light communication using TDMA optical beamforming[J]. EURASIP Journal on Wireless Communications and Networking, 2017, 1-6(2017).

[57] Mostafa A, Lampe L. Optimal and robust beamforming for secure transmission in MISO visible-light communication links[J]. IEEE Transactions on Signal Processing, 64, 6501-6516(2016).