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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 17 >Page 1712001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 17, 1712001 (2022)
    Space Target Automated Measurement Method for Optical Measurement Equipment
    Yu Pei1, Ce Gao1、*, Xiangbin Zeng2, Shaofeng Ma3, and Yi Yu1
    Author Affiliations
  • 1Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, Jilin , China
  • 2Unit 95841 of Chinese People’s Liberation Army, Jiuquan 735000, Gansu , China
  • 3Unit 63791 of Chinese People’s Liberation Army, Xichang615000, Sichuan , China
    • show less
    DOI: 10.3788/LOP202259.1712001 Cite this Article Set citation alerts
    Yu Pei, Ce Gao, Xiangbin Zeng, Shaofeng Ma, Yi Yu. Space Target Automated Measurement Method for Optical Measurement Equipment[J]. Laser & Optoelectronics Progress, 2022, 59(17): 1712001 Copy Citation Text show less
    System composition
    Fig. 1. System composition
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    Process of space target automatic measurement system
    Fig. 2. Process of space target automatic measurement system
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    Schematic diagram of stepped range search
    Fig. 3. Schematic diagram of stepped range search
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    Schematic diagram of spiral scan search
    Fig. 4. Schematic diagram of spiral scan search
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    Target observable period before optimization
    Fig. 5. Target observable period before optimization
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    Optimized target observation plan
    Fig. 6. Optimized target observation plan
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    Spiral search offset curves. (a) Three-dimensional curve; (b) two-dimensional curve
    Fig. 7. Spiral search offset curves. (a) Three-dimensional curve; (b) two-dimensional curve
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    Spiral search offset speed and acceleration curves. (a) Velocity curve; (b) acceleration curve
    Fig. 8. Spiral search offset speed and acceleration curves. (a) Velocity curve; (b) acceleration curve
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    Search offset and guidance data of spiral search algorithm (40135). (a) Spiral search azimuth offset; (b) spiral search elevation offset; (c) spiral search offset; (d) first order difference of coder
    Fig. 9. Search offset and guidance data of spiral search algorithm (40135). (a) Spiral search azimuth offset; (b) spiral search elevation offset; (c) spiral search offset; (d) first order difference of coder
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    Search offset and guidance data of step search algorithm (43005). (a) Step search azimuth offset; (b) step search elevation offset; (c) step search offset; (d) first order difference of coder
    Fig. 10. Search offset and guidance data of step search algorithm (43005). (a) Step search azimuth offset; (b) step search elevation offset; (c) step search offset; (d) first order difference of coder
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    Target indexNORADBegin timeEnd time
    12219522:09:0522:58:10
    22249022:07:3022:14:00
    32280322:24:0022:32:50
    42283022:16:5022:24:20
    54912522:00:0023:00:00
    64922222:18:2022:20:30
    74926122:39:4022:46:10
    84926222:37:5022:44:20
    94926322:26:0022:32:30
    104926422:25:0022:31:30
    Table 1. Target observable period before optimization
    Target indexNORADBegin timeEnd time
    12219522:41:2122:58:10
    22249022:07:3022:14:00
    32280322:24:0122:26:41
    42283022:19:2422:24:01
    54912522:30:4022:38:45
    64922222:18:2022:19:24
    74926122:40:0722:41:21
    84926222:38:4522:40:07
    94926322:28:3422:30:40
    104926422:26:4122:28:34
    Table 2. Optimized target observation plan
    Abstract
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    Figures&Tables (12)
    Equations (5)
    References (14)
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    Yu Pei, Ce Gao, Xiangbin Zeng, Shaofeng Ma, Yi Yu. Space Target Automated Measurement Method for Optical Measurement Equipment[J]. Laser & Optoelectronics Progress, 2022, 59(17): 1712001
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    Paper Information
    Recommended Topics
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