Research on Application Technology of Satellite Laser Network

De-peng ZHANG; Yan YU; Yue WANG

doi:10.13756/j.gtxyj.2023.01.003

Journals >Study On Optical Communications >Volume 49 >Issue 1 >Page 32 > Article

Study On Optical Communications
Vol. 49, Issue 1, 32 (2023)

Research on Application Technology of Satellite Laser Network

De-peng ZHANG^1,2,*, Yan YU¹, and Yue WANG²

Author Affiliations

¹School of Computer Science and Engineering, Nanjing University of Science and Technology, Nanjing 210094, China

²Space Star Technology Co., Ltd., Beijing 100086, China

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DOI: 10.13756/j.gtxyj.2023.01.003 Cite this Article

De-peng ZHANG, Yan YU, Yue WANG. Research on Application Technology of Satellite Laser Network[J]. Study On Optical Communications, 2023, 49(1): 32 Copy Citation Text

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Fig. 1. Physical map of LCRD terminal

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Fig. 2. Composition and physical map of TBIRD terminal

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Fig. 3. EDRS terminal composition and physical map

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Fig. 4. Deployment of HICALI ground stations

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Fig. 5. BER performances of LDPC and Turbo interleaved code

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Fig. 6. BER performances of LT，Raptor10 and Spinal code

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Fig. 7. Constellation simulation model and LCR value comparison results

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Fig. 8. Schematic diagram of cross-domain signaling concurrent flow

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Fig. 9. Comparison of path delay simulation between SPD and SPH algorithms

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Fig. 10. Simulation comparison of hop count between SPD and SPH algorithms

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Fig. 11. Topology diagram of laser/microwave fusion application system

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国家	系统	年份	通信链路	通信波长/nm	通信速率
美国	LLCD	2013	月-地	1 550(下行)	622.000 Mbit/s@PPM(下行)
	LLCD	2013	月-地	1 558(上行)	20.000 Mbit/s@PPM(上行)
	OPALS	2014	空间站-地	1 550(下行)	30.000～50.000 Mbit/s@IM/DD
	LCRD	2020	高-地	1 550	2.880 Gbit/s@DPSK
	LCRD	2020	高-地	1 550	622.000 Mbit/s@PPM
	ILLUMA-T	2022	低-高	1 550	1.244 Gbit/s@DPSK(上行)
	ILLUMA-T	2022	低-高	1 550	51.000 Mbit/s(下行)
	TBIRD	2022	低-地	1 550(下行)	200.000 Gbit/s(下行)
	TBIRD	2022	低-地	1 550(下行)	5.000 kbit/s@PPM(上行)
	DSOC	2022	火-地	1 550(下行)	264.000 Mbit/s@PPM(下行)
	DSOC	2022	火-地	1 060(上行)	2.000 kbit/s(上行)
	LOCNESS	2025	高-高/地/低	/	100.000 Gbit/s(高轨-高轨/地面)
	LOCNESS	2025	高-高/地/低	/	10.000 Gbit/s(高轨-低轨)
欧洲	TerraSAR-X	2008	低-低	1 064	5.600 Gbit/s@BPSK
	EDRS-A	2016	高-高/低	1 064	1.800 Gbit/s@BPSK
	EDRS-C	2019	高-高	1 064	1.800 Gbit/s@BPSK
	EDRS-D	2025	高-高	1 064/1 550	3.600～10.000 Gbit/s@BPSK
	HydRON	2025	高-低/地	1 064/1 550	100.000 Gbit/s
日本	SOTA	2014	低-地	980/1 550	1.000～10.000 Mbit/s@OOK
	JDRS	2020	高-低	1 540(上行)	1.800 Gbit/s@RZ-DPSK(上行)
	JDRS	2020	高-低	1 560(下行)	50.000 Mbit/s@IM/DD(下行)
	HICALI	2021	高-地	1 500(下行)	10.000 Gbit/s@DPSK(下行)