Title :
Optimal Attack Guidance Algorithm for UAV with Net Information Support
Author :
Zhaowang Fu ; Zhongliang Zhou ; Qingchun Kong ; Hongqiang Liu
Author_Institution :
Eng. Coll. Air Force Eng., Univ. Xi´an, Xi´an, China
Abstract :
A new guidance algorithm with threat avoidance ability and missile launch restriction is proposed. Firstly, mathematic model of guidance is established based on relative velocity vector, second, path restriction model for threat avoidance and terminal restriction is given. Performance index is established based on guidance time as well as control energy, attack guidance is constructed as an optimal control model with nonlinear boundary restriction, state restriction and path restriction. Gauss Pseudo-spectral Method is adopted for model discretization and receding horizon control strategy is introduced for online optimization. Simulation result shows, this new guidance algorithm is effectively for threat avoidance and missile launch requirement could well satisfy at the endpoint.
Keywords :
autonomous aerial vehicles; military aircraft; missiles; optimal control; predictive control; Gauss Pseudo-spectral Method; UAV; control energy; guidance mathematic model; guidance time; missile launch restriction; model discretization; net information support; nonlinear boundary restriction; optimal attack guidance algorithm; optimal control model; path restriction; path restriction model; performance index; receding horizon control strategy; relative velocity vector; state restriction; terminal restriction; threat avoidance ability; uninhabited aerial vehicles; Mathematical model; Missiles; Numerical models; Optimal control; Optimization; Trajectory; Vectors; Gauss Pseudospectral Method; guidance Algorithm; optimal control; path restriction; receding horizon control; threat avoidance;
Conference_Titel :
Computational Intelligence and Design (ISCID), 2012 Fifth International Symposium on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4673-2646-9
DOI :
10.1109/ISCID.2012.153
