[1] RISTIC B, BEARD M, FANTACCI C. An overview of particle methods for random finite set models[J]. In-formation Fusion, 2016, 31: 110-126. [2] LIU D, WANG Z D, LIU Y R, et al. Extended Kalman filtering subject to random transmission delays: dealing with packet disorders[J]. Information Fusion, 2020, 60: 80-86. [3] WANG X L, ZHANG Y A, WU H L. Distributed cooperative guidance of multiple anti-ship missiles with arbitrary impact angle constraint[J]. Aerospace Science and Technology, 2015, 46: 299-311. [4] RATNOO A, GHOSE D. Impact angle constrained interception of stationary targets[J]. Journal of Guidance, Control, and Dynamics, 2008, 31(6): 1817-1822. [5] HE S M, LIN D F. Continuous composite finite-time convergent guidance laws with autopilot dynamics compensation[J]. ISA Transaction, 2015, 58: 270-278. [6] BRIERLEY S D, LONGCHAMP R. Application of sliding-mode control to air-air interception problem[J]. IEEE Transactions on Aerospace and Electronic Systems, 1990, 26(2): 306-325. [7] YANG C D, CHEN H Y. Three-dimensional nonlinear guidance law[J]. International Journal of Robust and Nonlinear Control, 2001, 11(2): 109-129. [8] LIU L J, SHEN Y. Three-dimension guidance law and capture region analysis[J]. IEEE Transactions on Aerospace and Electronic Systems, 2012, 48(1): 419-429. [9] YANG C D.CHEN H Y.Nonlinear robust guidance law for homing missile [J]. AIAA Journal of Guidance, Control, and Dynamics, 1998, 21(6): 882-890. [10] LECHEVIN N, RABBATH C A. Lyapunov-based nonlinear missile guidance[J]. Journal of Guidance, Control, and Dynamics, 2004, 27(6): 1096-1102. [11] YANUSHEVSKY R T. Concerning Lyapunov-based guidance[J]. Journal of Guidance, Control, and Dynamics, 2006, 29(2): 509-511. [12] ZHANG W J, FU S N, LI W, et al. An impact angle constraint integral sliding mode guidance law for maneuvering targets interception[J]. Journal of Systems Engineering and Electronics, 2020, 31(1): 168-194. [13] SHIMA T, GOLAN O M. Head pursuit guidance[J]. Journal of Guidance, Control, and Dynamics, 2007, 30(5): 1437-1444. [14] 魏军辉, 孙越林, 张俊. 制导炮弹末端落角约束积分滑模变结构制导律[J]. 兵器装备工程学报, 2019, 40(增刊2): 103-105. WEI J H, SUN Y L, ZHANG J. Integral sliding mode variable structure guidance law with landing angle constrain of the guided projectile[J]. Journal of Ordnance Equipment Engineering, 2019, 40(S2): 103-105.(in Chinese) [15] 陈升富, 常思江, 吴放. 带有视场角约束的滑模攻击时间控制制导律[J]. 兵工学报, 2019, 40(4): 777-787. CHEN S F, CHANG S J, WU F. A sliding mode guidance law for impact time control with field of view constraint[J]. Acta Armamentarii, 2019, 40(4): 777-787.(in Chinese) [16] 梁增顺, 冯西安, 薛昱.水下智能航行体跟踪目标的自适应加权导引律设计[J].西北工业大学学报, 2021, 39(2): 302-308. LIANG Z S, FENG X A, XUE Y. Design on adaptive weighted guidance law for underwater intelligent vehicle tracking target[J]. Journal of Northwestern Polytechnical University, 2021, 39(2): 302-308. (in Chinese) [17] RYOO C K, CHO H, TAHK M J. Optimal guidance laws with terminal impact angle constraint[J]. Journal of Guidance, Control, and Dynamics, 2005, 28(4): 724-732. [18] ZHANG Y X, SUN M W, CHEN Z Q. Finite-time convergent guidance law with impact angle constraint based on sliding-mode control[J]. Nonlinear Dynamics, 2012, 70(1): 619-625. [19] KUMAR S R, RAO S, GHOSE D. Sliding-mode guidance and control for all-aspect interceptors with terminal angle constraints[J]. Journal of Guidance, Control, and Dynamics, 2012, 35(4): 1230-1246. [20] KUMAR S R, RAO S, GHOSE D. Nonsingular terminal sliding mode guidance with impact angle constraints[J]. Journal of Guidance, Control, and Dynamics, 2014, 37(4): 1114-1130. [21] BOIKO I, FRIDMAN L. Analysis of chattering in continuous sliding-mode controllers[J]. IEEE Transaction on Automatic Control, 2005, 50(6): 1442-1446. [22] SHIMA T, GOLAN O M. Exo-atmospheric guidance of an accelerating interceptor missile[J]. Journal of the Franklin Institute, 2012, 349(2): 622-637. [23] HE S M, LIN D F. Guidance laws based om model predictive control and target maneuver estimator[J]. Transactions of the Institute of Measurement and Control, 2016, 38(12): 1509-1519. [24] YANG F, ZHANG K Q, YU L. Adaptive super-twisting algorithm-based nonsingular terminal sliding mode guidance law[J]. Journal of Control Science and Engineering, 2020, 2020(2): 1-11. [25] YAN H, JI H B. Guidance laws based on input-to-state stability and high-gain observers[J]. IEEE Transactions on Aerospace and Electronic Systems, 2012, 48(3): 2518-2529. [26] LIAO F, JI H, XIE Y. A novel three-dimensional guidance law implementation using only line-of-sight azimuths[J]. International Journal of Robust and Nonlinear Control, 2014, 25(18): 3679-3697. [27] 刘佳琪, 王伟, 林德福, 等.考虑驾驶仪动态性能的指令滤波反演制导律[J]. 航空学报, 2020, 41(12):324123. LIU J Q, WANG W, LIN D F, et al. command filtered backstepping guidance law considering autopilot dynamics[J]. Acta Aeronautica, 2020, 41(12): 324123.(in Chinese) [28] 孙长银, 穆朝絮, 张瑞民.高超声速飞行器终端滑模控制技术[M]. 北京: 科学出版社, 2014: 117-128. SUN C Y, MU Z X, ZHANG R M. Terminal sliding mode control technology for hypersonic aerocraft[M]. Beijing: Science Press, 2014: 117-128.(in Chinese) [29] HAMED R, MOHAMMAD A, MOHSEN E. Continuous nonsingular terminal sliding mode control based on adaptive sliding mode disturbance observer for uncertain nonlinear systems[J]. Automatica, 2019, 109(2): 1-7. [30] MORENO J A, OSORIO M. Strict Lyapunov functions for the super-twisting algorithm[J]. IEEE Transactions on Automatic Control, 2012, 57(4): 1035-1040. [31] EDWARDS C, SHTESSEL Y B. Adaptive continuous higher order sliding mode control[J]. Automatica, 2016, 65: 183-190. [32] BHAT S P, BERNSTEIN D S. Finite-time stability of continuous autonomous systems[J]. SIAM Journal on Control and Optimization, 2000, 38(3): 751-766. [33] LEVANT A. Principles of 2-sliding mode design[J]. Automatica, 2007, 43(4): 576-586. [34] FENG Y, YU X H, MAN Z H. Non-singular terminal sliding mode control of rigid manipulators[J]. Automatica, 2002, 38(12): 2159-2167. [35] SHEVITZ D, PADEN B. Lyapunov stability theory of nonsmooth systems[J]. IEEE Transactions on automatic control, 1994, 39(9): 1910-1914. [36] HE S M, WANG W, WANG J. Discret-time super-twisting guidance law with actuator faults consideration[J]. Asian Journal of Control, 2017, 19(5): 1854-1861. [37] KUMAR S R, RAO S, GHOSE D. Nonsingular terminal sliding mode guidance with impact angle constraints[J]. Journal of Guidance, Control, and Dynamics, 2014, 37(4): 1114-1130.
|