Title :
Optimal guidance for acceleration constrained missile and maneuvering target
Author :
Rusnak, Ilan ; Meir, Levi
Author_Institution :
RAFAEL, Haifa, Israel
fDate :
7/1/1990 12:00:00 AM
Abstract :
Explicit formulas of optimal guidance laws for an acceleration-constrained, arbitrary-order missile and maneuvering target are derived. These formulas are given in terms of the transfer function and acceleration constraint of the missile and the transfer function/shaping filter of the target. Optimal full-state feedback guidance law is synthesized against a target performing a barrel roll maneuver, and compared with the performance of proportional navigation (PN) for minimum and nonminimum phase missile. Simulation of a third-order missile shows the relative gain from using the full-order guidance law
Keywords :
feedback; missiles; navigation; optimal control; proportional control; transfer functions; acceleration constrained missile; acceleration constraint; barrel roll maneuver; feedback guidance law; full-order guidance law; gain; maneuvering target; optimal guidance laws; proportional navigation; simulation; third-order missile; transfer function; transfer function/shaping filter; Acceleration; Aerodynamics; Filters; Missiles; Navigation; Optimal control; Performance analysis; State feedback; Transfer functions; Vectors;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
