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Advanced optimal guidance law with maneuvering targets

Advanced optimal guidance law with maneuvering targets
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摘要 Based on optimal theory, the advanced optimal guidance law (AOGL) is derived for the interception endgame of maneuvering targets in step mode. The guidance system dynamics, target maneuvering dynamics and acceleration, gravity acceleration are considered and their effects are dy- namically cancelled out in guidance law. A four states Kalman filter is designed to estimate the re- quired states for AOGL. Simulation results show the AOGL is less sensitive to errors caused by target maneuvering and guidance system lag, and it needs less missile acceleration in most time of guidance especially at the end of intercept than other guidance laws. Especially its acceleration is zero at the end of intercept when attacking maneuvering target. Based on optimal theory, the advanced optimal guidance law (AOGL) is derived for the interception endgame of maneuvering targets in step mode. The guidance system dynamics, target maneuvering dynamics and acceleration, gravity acceleration are considered and their effects are dy- namically cancelled out in guidance law. A four states Kalman filter is designed to estimate the re- quired states for AOGL. Simulation results show the AOGL is less sensitive to errors caused by target maneuvering and guidance system lag, and it needs less missile acceleration in most time of guidance especially at the end of intercept than other guidance laws. Especially its acceleration is zero at the end of intercept when attacking maneuvering target.
作者 WEN Qiu-qiu XIA Qun-li LI Ran
机构地区 School of Aerospace Engineering China NORINCO Group
出处 《Journal of Beijing Institute of Technology》 EI CAS 2014年第1期8-15,共8页 北京理工大学学报(英文版)
基金 Supported by China Postdoctoral Science Foundation (2012T50048)
关键词 target maneuvering optimal guidance law system aerodynamic miss distance target maneuvering optimal guidance law system aerodynamic miss distance
分类号 TJ765 [兵器科学与技术—武器系统与运用工程]
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参考文献14

  • 1Yuan L. Homing andnavigation courses of automatic target seeking devices[J].Journal of Applied Phys- ics, 19(12) :1948:1122 -1128.
  • 2Zarchan P. Tactical and strategic missile guidance [ M ]. Vol. 176, Progress in Astronautics and Aero- nautics. Reston VA : AIAA, 1997.
  • 3Shneydor M. Aqualitative study of proportional navi- gation[J].IEEE Transactions on Aerospace and E- lectronic Systems, 1994, 30 ( 1 ) : 637 - 643.
  • 4Ben-Asher J Z, Yaesh I. Advances in missile guid- ance theory[ M]. Zarchan P. Vol. 180, Progress in Astronautics and Aeronautics. Reston, VA : AIAA, 1998.
  • 5Cottrell R G. Optimal intercept guidance for short-range tactical missile [ J ]. AIAA Journal, 1971,9 (7) : 1414 -1415.
  • 6Ping Lu, Frank R Chavez. Nonlinear optimal guid- ance[ C]//AIAA Guidance, Navigation, and Control Conference and Exhibit, AIAA 2006 - 6079,2006.
  • 7Atir R, Hexner G, Weiss H. Target mansuver adap- tive guidance law for a bounded acceleration missile [J]. Journal of Guidance and Dynamics, 2010, 3 (3) : 695 - 705.
  • 8Hexner G, 8hima T, Weiss H. LQG guidance law with bounded acceleration command [ J ]. IEEE Transactions on Aerospace and Electronic Systems, 2008,44(1) : 77 -86.
  • 9Hexner G, PilaA W. A practical stochastic optimal guidance law for a bound acceleration missile [ C ]// Guidance Navigation and Control Conference, AIAA 2010 - 8034,2010.
  • 10Bar-Shalom Y, Li X R. Estimation andtracking: principles, techniques and software [ M ]. Nor- wood, MA : Artech House, 1993:339 - 414.
Journal of Beijing Institute of Technology
2014年 第1期

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