Abstract
The charge couple device (CCD) tracking loop of a fast steering mirror (FSM) is usually used to stabilize line of sight (LOS). High closed-loop bandwidth facilitates good performance. However, low-rate sample and time delay of the CCD greatly limit the high control bandwidth. This paper proposes an error-based observer (EBO) to improve the low-frequency performance of the CCD tracking system. The basic idea is by combining LOS error from the CCD and the controller output to produce the high-gain observer, forwarding into the originally closed-loop control system. This proposed EBO can improve the system both in target tracking and disturbance suppression due to LOS error from the CCD’s sensing of the two signals. From a practical engineering view, the closed-loop stability and robustness of the EBO system are investigated on the condition of gain margin and phase margin of the open-loop transfer function. Two simulations of CCD experiments are provided to verify the benefits of the proposed algorithm.
Highlights
A charge couple device (CCD)-based fast steering mirror (FSM) control system is widely used in adaptive optics, free space communication, and line of sight stabilization [1,2,3]
This paper proposes an error-based observer is proposed to compensate for errors related to time delay in the CCD tracking loop of a fast steering (EBO) tomirror
The EBO combines the line of sight (LOS) error from the CCD and the controller output to produce a stabilityhigh-gain and robustness of the EBO system are investigated on the condition of proposed gain margin and observer, and feedforwards into the originally closed-loop control system
Summary
A charge couple device (CCD)-based fast steering mirror (FSM) control system is widely used in adaptive optics, free space communication, and line of sight stabilization [1,2,3]. Combining an LOS error with an angular sensor is proposed to compensate for errors related to time delay in the CCD tracking loop of a fast steering mirror. This paper control system both in target tracking and disturbance suppression because of the LOS error from proposes an error-based observer (EBO) to improve the low-frequency performance of the CCD the CCD’s sensing of the two signals. The EBO combines the LOS error from the CCD and the controller output to produce a stabilityhigh-gain and robustness of the EBO system are investigated on the condition of proposed gain margin and observer, and feedforwards into the originally closed-loop control system. In this control mode, there is no extra model of the CCD-based tracking system.
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