Title :
Augmented Polynomial Guidance With Impact Time and Angle Constraints
Author :
Tae-Hun Kim ; Chang-Hun Lee ; In-Soo Jeon ; Min-jea Tahk
Author_Institution :
7th R&D Inst., Agency for Defense Dev. (ADD), Daejeon, South Korea
Abstract :
In this paper, a new impact time and impact angle control guidance law for homing missiles against a stationary target is proposed. To derive a state feedback command for the proposed law with terminal constraints on the impact time and angle, we introduce a polynomial function of the guidance command with three unknown coefficients, one of which is determined to achieve the impact time requirement. The others are determined to satisfy the terminal impact angle constraint, as well as the zero miss distance. Because the proposed guidance law has arbitrary guidance gains, it is possible to shape the intercept trajectory and acceleration command profile by choosing proper gains in relation to the missile´s capability, operational conditions, and so on.
Keywords :
missiles; polynomials; angle constraints; augmented polynomial guidance; guidance command; guidance law; homing missiles; impact angle control guidance law; impact time; missile capability; polynomial function; state feedback command; stationary target; terminal constraints; zero miss distance; Boundary conditions; Missiles; Polynomials; State feedback; Time factors; Trajectory;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2013.6621856
