[1] XU Ch, HUANG D Q, LIU J Y. Target location of unmanned aerial vehicles based on the electro-optical stabilization and tracking platform[J]. Measurement, 2019, 147(7): 76-79.
[2] ZHAO T, CHEN Y, DIAN S, et al. General type-2 fuzzy gain sche-duling PID controller with application to power-line inspection robots[J]. International Journal of Fuzzy Systems, 2020, 22(9): 181-200. doi: 10.1007/s40815-019-00780-1
[3] HU Sh S. The principle of automatic control[M]. 5th ed. Beijing: Science Press, 2007: 471-472(in Chinese).
[4] LIU Y, XIA R Q, LV Y. Research on composite PID controller used in fine pointer of beam[J]. Laser Technology, 2018, 42(6): 868-872 (in Chinese).
[5] HORIUCHI T, INOUE M, KONNO T, et al. Real-time hybrid expe-rimental system with actuator delay compensation and its application to a piping system with energy absorber[J]. Earthquake Engineering & Structural Dynamics, 1999, 28(10): 1121-1141.
[6] MORARI M, LEE J H. Model predictive control: Past, present, and future[J]. Computers & Chemical Engineering, 1999, 23(4/5): 667-682.
[7] CAO Y, STUART D, REN W, et al. Distributed containment control for multiple autonomous vehicles with double-integrator dynamics: Algorithms and experiments[J]. IEEE Transactions on Control Systems Technology, 2010, 19(4): 929-938.
[8] BRADLEY L M, CORRIVEAU J P, TINDAL N E. Launch area th-eodolite system[C]//Acquisition, Tracking, and Pointing: International Society for Optics and Photonics. New York, USA: IEEE, 1991: 48-60.
[9] WANG J L, CHEN T, CHEN J, et al. A method for improving the tracking ability of a photoelectric theodolite against the fast moving targets[J]. Opto-Electronic Engineering, 2002, 29(1): 34-37(in Ch-inese).
[10] GENG A H, CHEN H, CHEN J, et al. Dynamic integral control for a digital servo system[J]. Journal of Changchun University of Technology (Natural Science Edition), 2007, 28(3): 261-263(in Ch-inese).
[11] SUN J. Study on application of dynamic high type method in tracking servo system of theodolite[D]. Changchun: Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Science, 2004: 37-54(in Chinese).
[12] LIU H, ZENG X H. Application of fuzzy-dynamic height control method in strapdown mirror stabilization platform[J]. Optics & Optoelectronic Technology, 2018, 16(2): 7-13(in Chinese).
[13] LIU Sh T, CAO Y, PENG X F, et al. PID control of optical axis stabilization for airborne laser communication based on fuzzy neural network[J]. Laser Technology, 2017, 41(4): 606-610(in Chin-ese).
[14] QI Y Ch, CHEN W, MU Ch Y, et al. Laser temperature control system based on particle swarm self-tuning PID algorithm[J]. Laser Technology, 2019, 43(5): 650-654(in Chinese).
[15] YANG Y, HUANG Zh Q, LIU F Y, et al. Application of multi-po-pulation genetic algorithm in wet steam parameter measurement[J]. Laser Technology, 2014, 38(4): 484-487(in Chinese).
[16] LI J J, LIU D M, CHEN J. High-degree-mode dynamic control for theodolite tracking servo system[J]. Information and Control, 2006, 35(5): 647-650.
[17] SHEN Y Ch, TANG W W, ZHANG G X, et al. Research of routing problem based on genetic algorithm[J]. Laser Technology, 2011, 35(3): 422-424(in Chinese).
[18] ZHANG T F, ZHANG H X, MENG F, et al. Application of improved Hausdorff distance and quantum genetic algorithm in laser i-mage guidance[J]. Laser Technology, 2016, 40(3): 320-325(in Chinese).
[19] WANG A X, FENG J. Genetic simulated annealing algorithin in the parameter retrieval of light scattering model[J]. Laser Technology, 2009, 33(1): 32-35(in Chinese).
[20] LIU M, WANG J H. Genetic algorithm optimized fuzzy controller method[J]. Journal of Fujian Computer, 2005(8): 40-41(in Ch-inese).
[21] SUN J P, YANG Zh Y, YU X N, et al. Design of a fuzzy controller based on multilevel GAs[J]. Journal of North China Electric Power University, 2002, 29(4): 41-43(in Chinese).
[22] XIAO C Sh, MAO Y H, YUAN H W. Design and simulation of intelligent control algorithm for quadrotors under wind disturbance[J]. Computer Science, 2018, 45(5): 317323(in Chinese).