Abstract
This paper presents an impact-angle guidance law of unmanned aerial vehicles (UAVs) with time-varying thrust in a boosting phase. Most current research on impact-angle guidance law assumes that UAV speed is constant in terms of controlled thrust. However, the UAV speed and the acceleration in a boosting phase keep changing because of time-varying thrust. Environmental factors and manufacturing process error may prohibit accurately predicting vehicle-thrust profiles. We propose a nonlinear impact-angle guidance law by analytically solving second-order error dynamics with nonlinear time-varying coefficients. The proposed analytic solution enables one to update guidance gains according to initial and current states so that desired impact angle is met while the miss-distance error is reduced. We prove the finite-time error convergence of the proposed guidance law with the Lyapunov stability theory. Various simulation studies are performed to verify the proposed guidance law.
Funder
Defense Acquisition Program Administration
Subject
General Mathematics,Engineering (miscellaneous),Computer Science (miscellaneous)
Reference24 articles.
1. Suboptimal reentry guidance of a reusable launch vehicle using pitch plane maneuver;Chawla;Aerosp. Sci. Technol.,2010
2. Jeong, S., Cho, S., and Kim, E. Angle Constraint Biased PNG. Proceedings of the 2004 5th Asian Control Conference.
3. Nelson, R.C. Flight Stability and Automatic Control, 1998.
4. Heister, S.D., Anderson, W.E., Pourpoint, T., and Cassady, R.J. Rocket Propulsion. 2018.
5. Zarchan, P. Tactical and Strategic Missile Guidance, 2019.
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