Abstract
In this paper, a three-dimensional partial integrated guidance and control law for the supersonic missile impacting the surface target is proposed. In the guidance loop design, a reduced-order extended state observer is integrated with feedback linearization and the pure proportional navigation law to eliminate the effects of the unknown target kinematics and the dynamic coupling between the vertical and horizontal planes. Considering the autopilot lag, two guidance schemes with different observer inputs are compared using the adjoint and frequency domain analyses. For the control loop, the angular velocity feedback is performed first for the pitch and yaw channels as conventionally done in practice, and then first-order linear active disturbance rejection control is designed for the damping-enhanced plant to deal with the fast time-varying, uncertain aerodynamics and the strong coupling effects among the three channels. Both the attitude angle and the acceleration control can be designed in a unified framework. Finally, a three-dimensional engagement scenario is performed using a six-degree-of-freedom supersonic vehicle model, and extensive simulations are carried out to validate the robustness and the high guidance precision of the proposed method.
Highlights
Due to the advantages of penetration ability and lethality, supersonic missile has been used widely
It can be observed that the nature of partial integrated guidance and control (PIGC)-AC is the proportional integral (PI) control of the line of sight (LOS) angular rate plus an additional decoupling term, which is independent of the autopilot dynamics
A PIGC scheme based on the Reduced-order extended state observer (RESO) was proposed
Summary
Due to the advantages of penetration ability and lethality, supersonic missile has been used widely. While in the second guidance law (called PIGC-AC), the autopilot lag is regarded as part of the total disturbance and the control input of the RESO is the acceleration command.
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