Three-dimensional finite-time cooperative guidance for multiple missiles without radial velocity measurements 被引量：15

Three-dimensional finite-time cooperative guidance for multiple missiles without radial velocity measurements

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摘要 In order to simultaneously attack a target with impact angle constraint in threedimensional(3-D) space, a novel distributed cooperative guidance law for multiple missiles under directed communication topologies is proposed without radial velocity measurements. First, based on missiles-target 3-D relative motion equations, the multiple missiles cooperative guidance model with impact angle constraint is constructed. Then, in Line-of-Sight(LOS) direction, based on multiagent system cooperative control theory, one guidance law with directed topologies is designed with strict proof, which can guarantee finite time consensus of multiple missiles' impact times. Next, in elevation direction and azimuth direction of LOS, based on homogeneous system stability theory and integral sliding mode control theory, two guidance laws are proposed respectively with strict proof, which can guarantee LOS angles converge to desired values and LOS angular rates converge to zero in finite time. Finally, the effectiveness of the designed cooperative guidance law is demonstrated through simulation results. In order to simultaneously attack a target with impact angle constraint in threedimensional(3-D) space, a novel distributed cooperative guidance law for multiple missiles under directed communication topologies is proposed without radial velocity measurements. First, based on missiles-target 3-D relative motion equations, the multiple missiles cooperative guidance model with impact angle constraint is constructed. Then, in Line-of-Sight(LOS) direction, based on multiagent system cooperative control theory, one guidance law with directed topologies is designed with strict proof, which can guarantee finite time consensus of multiple missiles' impact times. Next, in elevation direction and azimuth direction of LOS, based on homogeneous system stability theory and integral sliding mode control theory, two guidance laws are proposed respectively with strict proof, which can guarantee LOS angles converge to desired values and LOS angular rates converge to zero in finite time. Finally, the effectiveness of the designed cooperative guidance law is demonstrated through simulation results.

作者 Teng LYU Chuanjiang LI Yanning GUO Guangfu MA

机构地区 Department of Control Science and Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2019年第5期1294-1304,共11页 中国航空学报（英文版）

基金 supported by the National Natural Science Foundation of China(Nos.61603114,61673135)

关键词 3-D cooperative guidance Directed communication TOPOLOGIES Finite time Impact angle CONSTRAINT RADIAL VELOCITY MEASUREMENTS 3-D cooperative guidance Directed communication topologies Finite time Impact angle constraint Radial velocity measurements

分类号 V [航空宇航科学技术]

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