[1] Hu Haojun. Lineofsight stabilization of acquisition, tracking pointing system on moving bed[D]. Changsha: National University of Defense Technology, 2005: 1215
[2] Satyarthi S. Optical lineofsight steering using gimbaled mirrs[C]Proceedings of the SPIE 9076, Airbne Intelligence, Surveillance, Reconnaissance (ISR) Systems Applications XI. 2014: 90760E.
[3] Lü Hongyu, Jin Gangshi, Gao Xuhui. Stabilization analysis of airborne electro-optical platform with two-axis and four-gimbal[J]. Laser & Infrared, 45, 194-198(2015).
[4] Tang Tao, Ma Jiaguang, Chen Hongbin, . A review on precision control methodologies for optical-electric tracking control system[J]. Opto-Electronic Engineering, 47, 200315(2020).
[5] Hou Ruibo, Wei Tao, Song Jing. Key technologies and its development of aeronautical photoelectric reconnaissance platform[J]. Electronic Component and Information Technology, 51-53,57(2019).
[6] Hong Huajie, Wang Xuewu, Weng Ganfei. Mirror stabilization in electro-optical reconnaissance system[J]. Journal of Applied Optics, 32, 591-597(2011).
[7] Hilkert J M, Cohen S. Development of mirr stabilization lineofsight rate equations f an unconventional senstogimbal ientation[C]Proceedings of the SPIE 7338, Acquisition, Tracking, Pointing, Laser Systems Technologies XXIII. 2009: 733803.
[8] Wang Qi, Sun Guangli, Li Chunning, . Inertial line-of-sight stabilization technique of semi-strapdown control using mirrors[J]. Infrared and Laser Engineering, 44, 3070-3075(2015).
[9] Song Jiangpeng, Sun Guangli, Zhou Di, . Line-of-sight stabilization techniques for mirror electro-optical platform[J]. Infrared and Laser Engineering, 44, 1904-1911(2015).
[10] Xia Yunxia, Bao Qiliang, Liu Zidong. A new disturbance feedforward control method for electro-optical tracking system line-of-sight stabilization on moving platform[J]. Sensors, 18, 4350(2018).
[11] Schneeberger T J, Barker K W. Highaltitude balloon experiment: a testbed f acquisition, tracking, pointing technologies[C]Proceedings of the SPIE 1950 Acquisition, Tracking, Pointing VII. 1993: 215.
[12] Luniewicz M F, Murphy J, O''Neil E, et al. Testing the inertial pseudostar reference unit[C]Proceedings of the SPIE 2221, Acquisition, Tracking, Pointing VIII. 1994: 638649.
[13] EckelkampBaker D, Sebesta H R. Optical inertial reference unit f kilohertz bwidth submicradian optical pointing jitter control: U. S. Patent 7227, 111[P]. 20070605.
[14] Gilme J P, Luniewicz M F, Sargent D. Enhanced precision pointing jitter suppression system[C]Proceedings of the SPIE 4632, Laser Beam Control Technologies. 2002: 3849.
[15] Walter R E, Danny H, Donaldson J. Stabilized inertial measurement system (SIMS)[C]Proceedings of the SPIE 4724, Laser Weapons Technology III. 2002: 5768.
[16] ATA(Applied Technology Associate). Optical inertial reference unit[EBOL]. (20190101)[20211014].https:bluehalo.comproductopticalinertialreferenceunitoiru.
[17] Yue Ronggang, Wang Humei, Jin Ting, et al. Image motion measurement and image restoration system based on an inertial reference laser[J]. Sensors, 21, 3309(2021).