|
|
非视距水下联合散射信道路径损耗特性研究
|
Abstract:
目前,非视距水下无线光通信的研究主要集中在水中粒子对光子的散射作用,利用水中粒子的多次散射来实现传输。然而,在近海面场景中,粗糙海面对光子的散射作用同样不容忽视。文章充分考虑粗糙海面的散射作用,提出建立激光水下联合散射信道,利用粗糙海面和水中粒子共同散射进行传输,并仿真分析了不同传输距离、海水环境、海面粗糙度以及收发机系统配置对联合散射信道路径损耗的影响。研究结果为非视距水下无线光通信系统的设计与优化提供了重要的理论支持。
Currently, research on non-line-of-sight underwater wireless optical communication mainly focuses on the scattering effect of particles in the water on photons and utilizes the multiple scattering of particles in the water to realize transmission. However, in the near-sea surface scenario, the scattering effect of the rough sea surface on photons should not be neglected as well. In this paper, the scattering effect of rough sea surface is fully considered, and it is proposed to establish a laser underwater joint scattering channel, which utilizes the joint scattering of rough sea surface and water particles for transmission. The effects of different transmission distances, seawater environment, sea surface roughness, and transceiver system configuration on the path loss of the joint scattering channel are simulated and analyzed. The results provide important theoretical support for the design and optimization of non-line-of-sight underwater wireless optical communication systems.
| [1] | Gabriel, C., Khalighi, M., Bourennane, S., Leon, P. and Rigaud, V. (2011) Channel Modeling for Underwater Optical Communication. 2011 IEEE GLOBECOM Workshops (GC Wkshps), Houston, 5-9 December 2011, 833-837. https://doi.org/10.1109/glocomw.2011.6162571 |
| [2] | Choudhary, A., Jagadeesh, V.K. and Muthuchidambaranathan, P. (2014) Pathloss Analysis of NLOS Underwater Wireless Optical Communication Channel. 2014 International Conference on Electronics and Communication Systems (ICECS), Coimbatore, 13-14 February 2014, 1-4. https://doi.org/10.1109/ecs.2014.6892620 |
| [3] | Jagadeesh, V.K., Naveen, K.V. and Muthuchidambaranathan, P. (2015) BER Performance of NLOS Underwater Wireless Optical Communication with Multiple Scattering. International Journal of Electronics and Communication Engineering, 9, 563-566. |
| [4] | Liu, W., Zou, D., Xu, Z. and Yu, J. (2015) Non-Line-of-Sight Scattering Channel Modeling for Underwater Optical Wireless Communication. 2015 IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER), Shenyang, 8-12 June 2015, 1265-1268. https://doi.org/10.1109/cyber.2015.7288125 |
| [5] | Umar, A.B., Leeson, M.S. and Abdullahi, I. (2019) Modelling Impulse Response for NLOS Underwater Optical Wireless Communications. 2019 15th International Conference on Electronics, Computer and Computation (ICECCO), Abuja, 10-12 December 2019, 1-6. https://doi.org/10.1109/icecco48375.2019.9043272 |
| [6] | Xu, L., Liu, X., Zhang, P. and Wang, X. (2022) Path-Loss of Violet-Light-Based Non-Line-of-Sight Underwater Optical Communication. Journal of Optics, 52, 1109-1117. https://doi.org/10.1007/s12596-022-00926-9 |
| [7] | Gabriel, C., Khalighi, M., Bourennane, S., Léon, P. and Rigaud, V. (2012) Monte-Carlo-Based Channel Characterization for Underwater Optical Communication Systems. Journal of Optical Communications and Networking, 5, 1-12. https://doi.org/10.1364/jocn.5.000001 |
| [8] | 李晗. 非视距水下无线光信道建模技术研究[D]: [硕士学位论文]. 西安: 西安电子科技大学, 2022. |
| [9] | 李昌泽, 童创明, 王童, 等. 非均匀不稳定表面粗糙目标的太赫兹波段散射特性分析[J]. 红外与毫米波学报, 2016, 35(2): 234-242. |
| [10] | 刘显月. 非视距紫光水下散射传输特性研究[D]: [硕士学位论文]. 长春: 长春理工大学, 2022. |
