Precision control of airborne laser communication optical axis using sliding mode observer

Donghui Wang; Guoli Kong; Shuli Chen

doi:10.3788/IRLA20210460

[1] J Ma, X B Fu, D W Zhen. Pointing reliability analysis of LOS of space tracking and aiming remote sensor. Chinese Journal of Scientific Instrument, 41, 122-132(2020).

[2] L Z Sun. ADRC Based Line-of-sight stabilization of opto-electronic load onboard UAVs. Electronics Optics & Control, 26, 104-108, 113(2019).

[3] X Che, P Jia, D P Tian. A survey of line of sight control technology for airborne photoelectric payload. Optics and Precision Engineering, 26, 1642-1652(2018).

[4] G K Luo, Q L Dong, M L Sun, et al. Application of ADRC in LOS stabilization of laser seeker. Aero Weaponry, 26, 34-38(2019).

[5] Y C Fang, J Xu, Y S Zhang, et al. Airborne target indication stability control based on improved extended state observation. Infrared and Laser Engineering, 50, 20200442(2021).

[6] H B Zhang, Y Cao, X F Peng, et al. Genetic algorithm optimized fuzzy PID optical axis stability control for airborne laser communication. Laser Journal, 39, 116-119(2018).

[7] Y Cao, S T Liu, X F Peng, et al. Active disturbance rejection control of optical axis for airborne laser communication system. Laser & Infrared, 47, 750-754(2017).

[8] R X Wu, Y Dong, C J Tian, et al. Line-of-sight pointing technology of laser communication system based on Kalman filter. Optical Communication Technology, 42, 30-32(2018).

[9] X G Wang, S M Wang, D D Chen, et al. Design of laser tracking system with quadrant detector. Laser & Infrared, 47, 432-436(2017).

[10] W Wang, Y Q Liu, Y Dong, et al. Research on composite tracking technology in space laser communication. Laser & Infrared, 50, 403-406(2020).

[11] B L Guan, J Y Jia, Y M Zhu. Tracking strategy of three-axis photoelectric tracking system based on adaptive genetic algorithm. Chinese Journal of Scientific Instrument, 33, 1758-1764(2012).

[12] C Y Wang, S Q Zhao, H W Shi, et al. Linear active disturbance rejection control of airborne photoelectric stabilized platform. Infrared and Laser Engineering, 48, 1213002(2019).

[13] Z M Zhou, B Zhang, D P Mao. MIMO fuzzy sliding mode control for three-axis inertially stabilized platform. Sensors, 19, 1-16(2019).

[14] L M Hou, H S Shen, Y Z Li, et al. Nonlinear robust sliding mode control of permanent magnet synchronous motor speed regulation system. Electric Machines and Control, 24, 143-152(2020).

[15] H Z Li, Y Cao, X F Peng, et al. Chaos binary-state PSO of optical axis stabilization control for airborne laser communication. Laser & Infrared, 49, 824-830(2019).

[16] S Jiang, H L Hou. Line of sight stabilization control based on disturbance observer and fractional PID. Automation & Instrumentation, 35, 16-20(2020).