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DPPM在相干光通信中的应用研究

Research on DPPM Technology in Coherent Optical Space Laser Communication
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摘要 针对空间激光通信系统高能效高灵敏度的调制问题,对差分脉冲位置调制(DPPM)格式进行研究,并将其运用在相干光通信系统中,通过仿真及实验在系统功耗、误码(BER)性能和占用带宽中找到平衡点。实验结果表明,在直调直检和相干光通信传输系统中,在相同的传输信道,相同的传输速率为1.25 Gbit/s的DPPM信号时,两者达到硬判线所需的信号路光功率分别为-36.5和-60.0 dBm。相干传输系统对比直调直检传输系统提升了约24 dB的光功率裕度。对于实现硬判线的传输目标,传输3、6、12和24 Gbit/s速率的DPPM信号需要接收端光功率分别约为-49、-47、-42和-36 dBm。论证了采用DPPM格式/相干探测能够得到更高的灵敏度及更低的误码率。 Aiming at the modulation problem of high energy efficiency and high sensitivity in the space laser communication system,the Differential Pulse Position Modulation(DPPM)format is studied and applied to the coherent optical communication system.The balance point is found in the system considering power consumption,Bit Error Ratio(BER)performance and bandwidth occupation through simulation and experiment.The experimental results show that in the direct modulation direct detection and coherent optical communication transmission systems,the optical power of the signal path required to reach the hard line is-36.5 and-60.0 dBm respectively when the same transmission channel and the same transmission rate of 1.25 Gbit/s DPPM signal is applied.The optical power margin of the coherent transmission system is increased by about 24 dB compared with the direct detection transmission system.In order to achieve the transmission goal of the hard judgment line,the optical power of the receiver for transmitting the DPPM signal at the rate of 3、6、12、24 Gbit/s needs to be about-49、-47、-42、-36 dBm respectively.It is demonstrated that higher sensitivity and lower BER can be obtained by using DPPM format/coherent detection.
作者 王熹 李婕 罗鸣 WANG Xi;LI Jie;LUO Ming(State Key Laboratory of Optical Communication Technologies and Networks,China Information Communication Technologies Group Corporation,Wuhan 430074,China)
出处 《光通信研究》 2022年第5期18-23,32,共7页 Study on Optical Communications
基金 国家重点研发计划资助项目(2020YFB1806401) 湖北省自然科学基金资助项目(2021CFB580)。
关键词 脉冲位置调制 高灵敏度 相干光通信 空间激光通信 PPM high sensitivity coherent optical communication space laser communication
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  • 1高宠,马晶,谭立英,于思源,潘锋.大气光通信中大气闪烁时间平滑效应研究[J].光学学报,2006,26(4):481-486. 被引量:9
  • 2Hemmati H. Status of free-space optical communications pro gram at JPL[C]//2000 IEEE Aerospace Conference, 2000, 3: 101-105.
  • 3Hemmati H, Wright M W, Sanii B, et al. Multi-gigabit data- rate optical communication depicting LEO-to-GEO and GEO- to-ground links[C] //Proceedings of SHE, 2002, 4635: 295.
  • 4Biswas A, Williams G, Wilson K E, et al. Results of the STRV-2 lasercom terminal evaluation tests[C] //Proceedings of SPIE, 1998, 3266; 2.
  • 5Nakagawa Keizo, Yamamoto Akio, Toyoda Masahiro. Per- formance test result of LUCE (laser utilizing communication equipment) engineering model[C] //Proceedings of SPIE, 2000, 3932: 68.
  • 6Nakagawa Keizo, Yamamoto Akio, Suzuki Yoshiaki. OICE- TS optical link communications experiment in spaee[C] /// Proceedings of SPIE, 1996, 2886: 172.
  • 7Tolker-Nielsen T, Oppenhauser G. In orbit test result of an operational optical intersatellite link between ARTEMIS and SPOT4, SILEX[C] //Proceedings of SPIE, 2002, 4635; 1.
  • 8Boroson D M, Scozzafava J J, Murphy D V, et al. The Lunar Laser Communications Demonstration (LLCD) [C] //Third IEEE International Conference on Space Mission Challenges for Information Technology (SMC-IT), 2009.. 23-28.
  • 9Boroson D M, Robinson B S, Burianek D A, et al. Overview and status of the lunar laser communications demonstration [C] //Proceedings of SHE, 2012, 8246: 82460C.
  • 10Robinson B S, Boroson D M, Burianek D A, et al. Overview of the lunar laser communications demonstration[C] //Pro- ceedings of SHE, 2011, 7923: 792302.

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