[1] Ke X Z[M]. Ultraviolet Light Self-organizing Network Theory(2011).

[2] Ding Y, Fan J T, Tong S F et al. Approach of Distance Improving of Atmospheric UV Communication[J]. Acta Photonica Sinica, 41, 1047-1052(2012).

[3] Sunstein D E. A Scatter Communications Link at Ultraviolet Frequencies[D](1968).

[4] Reilly D M. Atmospheric Optical Communications in the Middle Ultraviolet[D](1976).

[5] Geller M, Keenan T E, Altman D E et al. Optical Non-line-of-sight Covert, Secure High Data Communication System[P].

[6] Ni G Q, Zhong S D, LIU L D et al. Study on Ultraviolet Communication through Disengaged Atmosphere[J]. Optical Technology, 26, 297-303(2000).

[7] Lan T, Ni G Q. Simulation Research on Ultraviolet Atmospheric Transmission in UV Communication[J]. Journal of Beijing Institute of Technology, 23, 419-423(2003).

[8] Ke X Z, He H, Chen X. A New Backoff Algorithm of MAC Layer in UV Adhoc Communication Network[J]. Journal of Optoelectronics·Laser, 21, 1002-1006(2010).

[9] Ke X Z, Chen J N, Hou Z M. Directional Media Access Control Protocol for Ultra Violet Non-line-of-sight Communication[J]. Journal of Optoelectronics·Laser, 22, 1190-1195(2011).

[10] Zhao T F, Ke X Z. Monte Carlo Simulations for Non-line-of-sight Ultraviolet Scattering Coverage Area[J]. Acta Physica Sinica, 61, 285-296(2012).

[11] Wu C Y, Zuo Y, Fan C et al. Research on MAC Layer Power Control in Ultraviolet Communication Networks[J]. Study on Optical Communications, 28-31(2013).

[12] Han D, Fan X, Zhang K et al. Research on Multiple-scattering Channel with Monte Carlo Model in UV Atmosphere Communication[J]. Applied Optics, 52, 5516-5522(2013).

[13] 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, 26, 1074-1080(2015).

[14] Song P, Song F, Li Y H et al. Inter-link Multi-user Interference in Non-line-of-sight Ultraviolet Communication Network[J]. Acta Photonica Sinica, 45, 159-166(2016).

[15] Song P, Zhou X L, Zhao T F et al. Node Design and Analysis of Communication Performance between Nodes in Ultraviolet Mobile Ad Hoc Networks[J]. Acta Optica Sinica, 38, 290-297(2018).

[16] Wang P H, Wang J Y, Li J H et al. Experimental of Ultraviolet Communication Multi-band Modulation System based on Low Pressure Mercury Lamp[J]. Optical Communication Technology, 43, 21-24(2019).

[17] Zhang J, Zhou M Y. A Design of Ultraviolet Communication System with Low Time-delay[J]. Laser Journal, 41, 150-154(2020).

[18] Cao T, Gao X, Wu T et al. Single-scatter Path Loss Model of LED-based Non-line-of-sight Ultraviolet Communications: Publisher's Note[J]. Optics Letters, 46, 4337(2021).

[19] Cao T, Wu T, Pan C et al. Single-collision-induced Path Loss Model of Reflection-assisted Non-line-of-sight Ultraviolet Communications[J]. Optics Express, 30, 15227-15237(2022).

[20] Chen G, Xu Z, Ding H et al. Path Loss Modeling and Performance Trade-off Study for Short-range Non-line-of-sight Ultraviolet Communications[J]. Optics Express, 17, 3929-3940(2009).

[21] Zhao T F, Feng Y L, Ke X Z et al. Research on the Coverage Area of Communication in the Solar-blind UV Communication Network[J]. Acta Optica Sinica, 30, 2229-2235(2010).

[22] Feng Y L. Research on Atmospheric Channel of Ultraviolet Optical Communication[D](2011).

[23] Wu T, Ma J, Yuan R et al. Single-scatter Model for Short-range Ultraviolet Communication in a Narrow Beam Case[J]. IEEE Photonics Technology Letters, 31, 265-268(2019).

[24] Drost R J, Moore T J, Sadler B M. UV Communications Channel Modeling Incorporating Multiple Scattering Interactions[J]. Journal of the Optical Society of America A, Optics, Image Science, and Vision, 28, 686-695(2011).

[25] Song P, Su C X, Zhao T F et al. Channel Capacity Analysis of Non-line-of-sight Ultraviolet Communication in Noncoplanar Geometry based on Traversing Tiny Unit Method[J]. Journal on Communications, 40, 144-152(2019).

[26] Song P. Research on Channel Transmission Characteristics of Wireless Ultraviolet Mobile Ad Hoc Networks[D](2017).

[27] Yuan R, Ma J, Su P et al. Monte-Carlo Integration Models for Multiple Scattering based Optical Wireless Communication[J]. IEEE Transactions on Communications, 68, 334-348(2020).

[28] He H, Ke X Z. Mie Scattering in Ultraviolet Communication[J]. Journal of Applied Sciences, 30, 245-250(2012).

[29] He H, Ke X Z, Zhao T F. Research of NLOS Ultraviolet Single Scattering Link Model with Height Information[J]. Laser Technology, 35, 495-498(2011).

[30] He H. Research on Key Technologies of Wireless Ultraviolet Communication and Its Networking[D](2011).

[31] Song P, Ke X Z, Xiong Y Y et al. Pulse Broadening Effect of Non-line-of-sight Ultraviolet in Noncoplanar Communication System[J]. Acta Optica Sinica, 36, 55-64(2016).

[32] Wei Z, Hu W, Han D et al. Simultaneous Channel Estimation and Signal Detection in Wireless Ultraviolet Communications Combating Inter-symbol-interference[J]. Optics Express, 26, 3260-3270(2018).

[33] Aung T Y, Arya S, Chung Y H. Performance Dependence of Non-line-of-sight Ultraviolet Communications on Atmospheric Parameters of the Ultraviolet Channel[J]. Optics Communications, 443, 7-11(2019).

[34] Biswal M R, Arya S, Chung Y H. Effect of Turbulence and Noise on Ultraviolet and Mid-infrared Spectrum in Optical Wireless Communications[J]. Photonic Network Communications, 39, 181-186(2020).

[35] Zuraski S M, Beecher E, McCrae J E et al. Turbulence Profiling Using Pupil Plane Wavefront Data Derived Fried Parameter Values for a Dynamically Ranged Rayleigh Beacon[J]. Optical Engineering, 59, 1-14(2020).

[36] He H, Ke X Z, Zhao T F et al. Research of Position in the Wireless“Solar-blind”Ultraviolet Mesh Network[J]. Laser Technology, 34, 607-610(2010).

[37] Wang P, Xu Z. Characteristics of Ultraviolet Scattering and Turbulent Channels[J]. Optics Letters, 38, 2773-2775(2013).

[38] Liao L, Chen G, Sadler B M et al. GPS Synchronized UV Communication System Performance based on USRP[C], 39-46(2013).

[39] Xiao H, Zuo Y, Wu J et al. Non-line-of-sight Ultraviolet Single-scatter Propagation Model in Random Turbulent Medium[J]. Optics Letters, 38, 3366-3369(2013).

[40] Liang W. Research on Multi-user Detection Technology in Ultraviolet Ad Hoc Network[D](2011).

[41] Wu P F, Ke X Z, Liang W. A Modified Blind Multi-user Detection Algorithm for Wireless Optical Code Division Multiple Access Systems[J]. Acta Optica Sinica, 32, 86-91(2012).

[42] Arya S, Chung Y H. A Novel Blind Spectrum Sensing Technique for Multi-user Ultraviolet Communications in Atmospheric Turbulence Channel[J]. IEEE Access, 7, 58314-58323(2019).

[43] Ke X Z, He H, Chen X. History-based Dynamic Fairness Backoff(HDFB) Algorithm in UV Ad Hoc[J]. Laser Journal, 31, 32-34(2010).

[44] Chen X. Research on MAC Layer Protocol Fairness of Ultraviolet Ad Hoc Network[D](2010).

[45] Li C, Xu Z, Li J et al. Performance of the UV Multinode Network under the Lossless Contention MAC Protocol[J]. IEEE Photonics Journal, 14, 7319207(2022).

[46] Li C, Li J, Xu Z et al. Research on the Lossless Contention MAC Protocol and the Performance of an Ultraviolet Communication Network[J]. Optics Express, 29, 31952-31962(2021).

[47] Yang P L. Research on Routing Protocol for Ultraviolet Self-organizing Network[D](2011).

[48] Zhao T F, Ke X Z, Wu C L et al. QoS Multicast Routing based on Ant Colony Algorithm for Wireless Network[J]. Journal of Xi’an University of Technology, 25, 404-409(2009).

[49] Wu C L. Research on Routing Protocol of Ultraviolet Optical Communication Network based on Ant Colony Algorithm[D](2011).

[50] Ke X Z, Chen J N. Research of Energy-saving Wireless Sensor Network based on UV Light[J]. Laser Technology, 37, 251-255(2013).

[51] Deng L J. Research on Routing Protocol for Ultraviolet Wireless Sensor Network[D](2011).