[1] ZHANG C, ZHANG L, ZHU L et al. 3D deployment of multiple UAV-mounted base stations for UAV communications[J]. IEEE Transactions on Communications, 69, 2473-2488(2021).

[2] LIN N, LIU Y, ZHAO L et al. An adaptive uav deployment scheme for emergency networking[J]. IEEE Transactions on Wireless Communications, 21, 2383-2398(2021).

[3] LIU X, WANG X, JIA J et al. Distributed deployment in UAV-assisted networks for a long-lasting communication coverage[J]. IEEE Systems Journal, 16, 4130-4138(2021).

[4] NOH S C, JEON H B, CHAE C B. Energy-efficient deployment of multiple UAVs using ellipse clustering to establish base stations[J]. IEEE Wireless Communications Letters, 9, 1155-1159(2020).

[5] QU H, ZHANG W, ZHAO J et al. Rapid deployment of UAVs based on bandwidth resources in emergency scenarios[C], 86-90(2020).

[6] ARAFAT M Y, MOH S. Localization and clustering based on swarm intelligence in UAV networks for emergency communications[J]. IEEE Internet of Things Journal, 6, 8958-8976(2019).

[7] WEN X, RUAN Y, LI Y et al. Improved genetic algorithm based 3-D deployment of UAVs[J]. Journal of Communications and Networks, 24, 223-231(2022).

[8] CHEN Jiamei, LI Shiang, LI Yufeng et al. Improved particle swarm optimization algorithm for UAV Aided Network Deployment Based on beetle search[J/OL]. Journal of Electronics and Information. https://kns.cnki.net/kcms/detail/detail.aspx？dbcode=CAPJ&dbname=CAPJLAST&filename=DZYX20220606006&uniplatform=NZKPT&v=OBbwn4s_s_AI0mE4g101i3Jn2VR5BoDaKd45uV42l8Q9nReRr-ZptURLJ8pRIR_U

[9] DAI H, ZHANG H, WANG B et al. The multi-objective deployment optimization of UAV-mounted cache-enabled base stations[J]. Physical Communication, 34, 114-120(2019).

[10] LIU X, LIU Y, CHEN Y. Reinforcement learning in multiple-UAV networks: deployment and movement design[J]. IEEE Transactions on Vehicular Technology, 68, 8036-8049(2019).

[11] WANG L, ZHANG H, GUO S et al. 3D UAV deployment in multi-UAV networks with statistical user position information[J]. IEEE Communications Letters, 26, 1363-1367(2022).

[12] ZHOU Fei, GUO Haotian, YANG Yi. An improved virtual force relocation coverage enhancement algorithm[J]. Journal of Electronics and Information, 42, 2194-2200(2020).

[13] MUHEIDAT F, DAJANI K, LO'AI A T. Security concerns for 5G/6G mobile network technology and quantum communication[J]. Procedia Computer Science, 203, 32-40(2022).

[14] WANG Xiaofeng, CHEN Taiqian, LIU Yuan. Research on dynamic simulation technology for satellite internet[J/OL]. Journal of System Simulation. https://kns.cnki.net/kcms/detail/detail.aspx？dbcode=CAPJ&dbname=CAPJLAST&filename=XTFZ20220825001&uniplatform=NZKPT&v=SnE8c-rNG4ZFdFVuE1_RX-ldMTKfV_uitXSKYrnvKUx8bhI7xuFbpXbWXeSHj7o6

[15] FENG Ketao, LI Xiaoyi, WU Lehua et al. Path loss of undulating terrain based on digital elevation model for ultraviolet indirect vision communication[J]. Acta Optica Sinica, 42, 151-164(2022).

[16] ZHAO T, YAO J, GONG C et al. Wireless ultraviolet light MIMO assisted UAV direction perception and collision avoidance method[J]. Physical Communication, 54, 101815(2022).

[17] LV Zhaoshun, WU Hanping, LIANG Baowen et al. Research on key technologies of direct and non direct vision ultraviolet communication system near the ground[J]. Infrared technology, 36, 688-694+699(2014).

[18] ZHAO Taifei, MA Qianwen, ZHAO Yi. Research on interference link performance of wireless ultraviolet communication[J / OL]. Progress in laser and Optoelectronics. https://kns.cnki.net/kcms/detail/detail.aspx？dbcode=CAPJ&dbname=CAPJLAST&filename=JGDJ202207130B2&uniplatform=NZKPT&v=cDi37wmKJEoQOjh01MYduT2cGdeLUlPBr7S6YyL-HdVkBmvgVZqtBizjht0ql8xw

[19] 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).

[20] ZHAO Taifei, FENG Yanling, KE Xizheng et al. Research on node coverage in “sun-blind” ultraviolet optical communication network[J]. Acta Optica Sinica, 30, 2229-2235(2010).

[21] XIE J, WEI D, HUANG S et al. A sensor deployment approach using improved virtual force algorithm based on area intensity for multisensor networks[J]. Mathematical Problems in Engineering, 2019, 1-9(2019).

[22] KIANI V. A greedy virtual force algorithm for target coverage in distributed sensor networks[C], 317-322(2020).

[23] YUAN Wangteng, LI Yage. Design of mobile deployment algorithm for UAV network[J]. Computer Knowledge and Technology, 13, 56-59(2017).