Three-Dimensional Fast Fixed-time Convergence Guidance Law With Impact Angle Constraint

Three-Dimensional Fast Fixed-time Convergence Guidance Law With Impact Angle Constraint

Blog Article

In this paper, a three-dimensional (3D) impact-angle-control guidance law is proposed based on the approaches of nonsingular terminal sliding mode control and fixed-time convergence theory to intercept a maneuvering target.The guidance law is derived based on the coupled 3D engagement dynamics.To intercept the target with an expected impact angle, the nonsingular terminal sliding mode control is designed to ensure that read more the line-of-sight (LOS) angles and rates rapidly reach the desired values.

Furthermore, the fixed-time convergence algorithm is proposed to guarantee that the LOS angles and rates are convergent in fixed time.The upper bound of the settling time can be obtained by presetting the parameters of the proposed guidance caruso milk thistle law, and it is independent of the initial conditions.The stability of the guidance system is proven via Lyapunov stability theory.

The simulation results are presented to validate the efficiency and superiority of the proposed guidance law.