• Infrared and Laser Engineering
  • Vol. 53, Issue 8, 20240155 (2024)
Hongguang LI, Fulun PENG, Shaobo WU, Shuai YU, and Chuangfei BAI
Author Affiliations
  • Xi’an Institute of Applied Optics, Xi’an 710065, China
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    DOI: 10.3788/IRLA20240155 Cite this Article
    Hongguang LI, Fulun PENG, Shaobo WU, Shuai YU, Chuangfei BAI. Stabilization error analysis of complex axes embedded into optical path for electro-optic system with upside mirror[J]. Infrared and Laser Engineering, 2024, 53(8): 20240155 Copy Citation Text show less
    Schematic diagram of complex axes stabilization platform embedded into optical path
    Fig. 1. Schematic diagram of complex axes stabilization platform embedded into optical path
    System coordinate of complex axes platform embedded into optical path
    Fig. 2. System coordinate of complex axes platform embedded into optical path
    Relationship 1 between FSM angle and system linearization stabilization error
    Fig. 3. Relationship 1 between FSM angle and system linearization stabilization error
    Relationship 2 between FSM angle and system linearization stabilization error
    Fig. 4. Relationship 2 between FSM angle and system linearization stabilization error
    Relationship between pitch angle of the first stage platform and system linearization stabilization error
    Fig. 5. Relationship between pitch angle of the first stage platform and system linearization stabilization error
    Relationship between azimuth angle of the first stage platform and system linearization stabilization error
    Fig. 6. Relationship between azimuth angle of the first stage platform and system linearization stabilization error
    Relationship 1 between FSM installation error and system stabilization error
    Fig. 7. Relationship 1 between FSM installation error and system stabilization error
    Relationship 2 between FSM installation error and system stabilization error
    Fig. 8. Relationship 2 between FSM installation error and system stabilization error
    Relationship 3 between FSM installation error and system stabilization error
    Fig. 9. Relationship 3 between FSM installation error and system stabilization error
    Relationship 1 between gyro installation error and system stabilization error
    Fig. 10. Relationship 1 between gyro installation error and system stabilization error
    Relationship 2 between gyro installation error and system stabilization error
    Fig. 11. Relationship 2 between gyro installation error and system stabilization error
    Relationship3 between gyro installation error system stabilization error
    Fig. 12. Relationship3 between gyro installation error system stabilization error
    Relationship 1 between pitch angle measurement error of FSM and system stabilization error
    Fig. 13. Relationship 1 between pitch angle measurement error of FSM and system stabilization error
    Relationship 2 between pitch angle measurement error of FSM and system stabilization error
    Fig. 14. Relationship 2 between pitch angle measurement error of FSM and system stabilization error
    Relationship 3 between pitch angle measurement error of FSM and system stabilization error
    Fig. 15. Relationship 3 between pitch angle measurement error of FSM and system stabilization error
    Relationship 1 between azimuth angle measurement error of FSM and system stabilization error
    Fig. 16. Relationship 1 between azimuth angle measurement error of FSM and system stabilization error
    Relationship 2 between azimuth angle measurement error of FSM and system stabilization error
    Fig. 17. Relationship 2 between azimuth angle measurement error of FSM and system stabilization error
    Relationship 3 between azimuth angle measurement error of FSM and system stabilization error
    Fig. 18. Relationship 3 between azimuth angle measurement error of FSM and system stabilization error
    Hongguang LI, Fulun PENG, Shaobo WU, Shuai YU, Chuangfei BAI. Stabilization error analysis of complex axes embedded into optical path for electro-optic system with upside mirror[J]. Infrared and Laser Engineering, 2024, 53(8): 20240155
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