A Long-distance Underwater Laser Communication System with Photon-counting Receiver

被引:0
|
作者
Zhou, Tianhua [1 ]
Hu, Siqi [1 ]
Mi, Le [1 ]
Zhu, Xiaolei [1 ]
Chen, Weibiao [1 ]
机构
[1] Shanghai Inst Opt & Fine Mech, Key Lab Space Laser Commun & Detect Technol, 390 Qinghe Rd, Shanghai 201800, Peoples R China
来源
2017 16TH INTERNATIONAL CONFERENCE ON OPTICAL COMMUNICATIONS & NETWORKS (ICOCN 2017) | 2017年
关键词
Underwater Laser Communication; Photon-counting Receiver; Monte-Carlo simulation;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We design and demonstrate a long-distance underwater optical communication system with photon-counting receiver. Monte-Carlo simulations are conducted to determine system parameters and estimate system performance. According to the simulation results, a Q-switched all solid state 532nm laser with pulse energy of 100uJ@10Hz is used as the optical source of transmitter. A telescope with 1 field of view, 100mm clear aperture, and a photon counting detector is used to collect the laser in the photon-counting receiver. We then present an experimental implementation in a long tank filled with clean water. The experimental results show that optical communication is established over a distance of 85m(similar to 24 optical attenuation lengths) at a data rate of 80kbps.
引用
收藏
页数:3
相关论文
共 50 条
  • [1] A photon-counting optical communication system for underwater data transfer
    Hiskett, Philip A.
    Struthers, Robert
    Tatton, Roy
    Lamb, Robert A.
    ELECTRO-OPTICAL REMOTE SENSING, PHOTONIC TECHNOLOGIES, AND APPLICATIONS VI, 2012, 8542
  • [2] An optical receiver for the Lunar Laser Communication Demonstration based on photon-counting superconducting nanowires
    Grein, Matthew E.
    Kerman, Andrew J.
    Dauler, Eric A.
    Willis, Matthew M.
    Romkey, Barry
    Molnar, Richard J.
    Robinson, Bryan S.
    Murphy, Daniel V.
    Boroson, Don M.
    ADVANCED PHOTON COUNTING TECHNIQUES IX, 2015, 9492
  • [3] Femtosecond photon-counting receiver
    Krainak, Michael A.
    Rambo, Timothy M.
    Yang, Guangning
    Lu, Wei
    Numata, Kenji
    ADVANCED PHOTON COUNTING TECHNIQUES X, 2016, 9858
  • [4] Optical Wireless Scattering Communication System with a Non-Ideal Photon-Counting Receiver
    Zou, Difan
    Gong, Chen
    Xu, Zhengyuan
    2016 IEEE GLOBAL CONFERENCE ON SIGNAL AND INFORMATION PROCESSING (GLOBALSIP), 2016, : 11 - 15
  • [5] Underwater optical communications with a single photon-counting system
    Hiskett, Philip A.
    Lamb, Robert A.
    ADVANCED PHOTON COUNTING TECHNIQUES VIII, 2014, 9114
  • [6] A multimode fiber-coupled photon-counting optical receiver for the Lunar Laser Communication Demonstration
    Grein, Matthew E.
    Shatrovoy, Oleg
    Murphy, Daniel V.
    Robinson, Bryan S.
    Boroson, Don M.
    2014 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO), 2014,
  • [7] A Comprehensive Comparison and Analysis of Several Intensity Modulations Based on the Underwater Photon-Counting Communication System
    Han, Xiaotian
    Li, Peng
    Chang, Chang
    Gao, Duorui
    Zhang, Dongquan
    Liao, Peixuan
    Wang, Wei
    Xie, Xiaoping
    FRONTIERS IN PHYSICS, 2022, 9
  • [8] Viterbi equalization for long-distance, high-speed underwater laser communication
    Hu, Siqi
    Mi, Le
    Zhou, Tianhua
    Chen, Weibiao
    OPTICAL ENGINEERING, 2017, 56 (07)
  • [9] 35.88 attenuation lengths and 3.32 bits/photon underwater optical wireless communication based on photon-counting receiver with 256-PPM
    Hu, Siqi
    Mi, Le
    Zhou, Tianhua
    Chen, Weibiao
    OPTICS EXPRESS, 2018, 26 (17): : 21685 - 21699
  • [10] Photon-counting laser interferometer for absolute distance measurement on rough surface
    Pang, Chengkai
    Wu, Di
    Shi, Haotian
    Chen, Xiuliang
    Yang, Lei
    Li, Zhaohui
    Wu, Guang
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2019, 90 (08):
12345