[1] DING H S, LEI Y, YUAN Z L, et al. Fabrication and characteristics of ZnO nanoparticles ultraviolet photodetector[J]. Journal of optoelectronics·laser, 2018, 29(10):1058-1063. (in Chinese)
[2] SU B, LIU M, YAN Y S, et al. Effects of cathode buffer layers on the performance of organic ultraviolet photodetector based on m-MTDATA/BAlq[J]. Journal of optoelectronics·laser, 2015, 26(7):1238-1242. (in Chinese)
[3] YANG G, LI X Y, CHEN M, et al. A new neighbor discovery algorithm of TDMA in UV ad hoc network[J]. Journal of optoelectronics·laser, 2015, 26(6):1074-1080. (in Chinese)
[4] KE X Z, HE H, CHEN X. A new backoff algorithm of MAC layer in UV adhoc communication network[J]. Journal of optoelectronics·laser, 2010, 21(7):1002-1006. (in Chinese)
[5] XU Z, DING H, SADLER B M, et al. Analytical performance study of solar blind non-line-of-sight ultraviolet short-range communication links[J]. Optics letters, 2008, 33(16):1860-1862.
[6] XU Z. Approximate performance analysis of wireless ultraviolet links[C]//IEEE International Conference on Acoustics, Speech and Signal Processing, April 15-20, 2007, Honolulu, HI, USA. New York:IEEE, 2007, 3:577-580.
[7] GARG K K, SINGYA P, BHATIA V. Performance analysis of NLOS ultraviolet communications with correlated branches over turbulent channels[J]. Journal of optical communications and networking, 2019, 11(11): 525-535.
[8] SONG P, LIU C, ZHAO T, et al. Research on pulse response characteristics of wireless ultraviolet communication in mobile scene[J]. Optics express, 2019, 27(8):10670-10683.
[9] CAO T, GAO X, WU T, et al. Single-scatter path loss model of LED-based non-line-of-sight ultraviolet communications[J]. Optics letters, 46(16):4013-4016.
[10] DING H, CHEN G, MAJUMDAR A K, et al. Modeling of non-line-of-sight ultraviolet scattering channels for communication[J]. IEEE journal on selected areas in communication, 2009, 27(9):1535-1544.
[11] XU C, ZHANG H. Channel analyses over wide optical spectra for long-range scattering communication[J]. IEEE communications letters, 2015, 19(2):187-190.
[12] ZHANG H, YIN H, JIA H, et al. Characteristics of non-line-of-sight polarization ultraviolet communication channels[J]. Applied optics, 2012, 51(35): 8366-8372.
[13] DROST R J, MOORE T J, SADLER B M. UV communications channel modeling incorporating multiple scattering interactions[J]. Journal of optical society America A optics image science & version, 2011, 28(4): 686-695.
[14] XU C, ZHANG H, CHENG J. Effects of haze particles and fog droplets on NLOS ultraviolet communication channels[J]. Optics express, 2015, 23(18):23259-23269.
[15] DING H, XU Z, SADLER B M. A path loss model for non-line-of-sight ultraviolet multiple scattering channels[J]. EURASIP journal on wireless communications & networking, 2010, 2010(1):1-12.
[16] LIN Y, XU Z, WANG J, et al. Analysis of effect of multiple scattering on non-line-of-sight scattering communication in fog weather[J]. Acta photonica sinica, 2014, 43(S1):225-228.
[17] DROST R J, MOORE T J, SADLER B M. Monte-Carlo-based multiple-scattering channel modeling for non-line-of-sight ultraviolet communications[J]. Proceedings of SPIE-the international society for optical engineering, 2011, 8038(5):73-81.
[18] LUO P, ZHANG M, HAN D, et al. Performance analysis of short-range NLOS UV communication system using Monte Carlo simulation based on measured channel parameters[J]. Optics express, 2012, 20(21): 23489-23501.
[19] JIA H, CHANG S, YANG J, et al. Monte-Carlo simulation of atmospheric transmission characteristics in non-line-of-sight ultraviolet communication[J]. Acta photonica sinica, 2007, 36(5):955-960.
[20] HESS M, KOEPKE P, SCHULT I. Optical properties of aerosol and clouds:the software package OPAC[J]. Bulletin of the American meteorological society, 1998, 79(5):831-844.
[21] Aerosol robotic network[EB/OL]. https://aeronet.gsfc. nasa.gov.