Abstract
Space debris capture is the base of the on-orbit servicing and space debris removal. Due to the lack of fixed grasping points and the uncertainty of motion parameters, the traditional spacecraft manipulator approach cannot be applied in the space debris capture. In this article, a novel adaptive capture approach based on origami principle is developed. Main advantages of the proposed method are as follows: (1) it can capture target without fixed points. Through multimodule unfolding, the capture mechanism can form a suitable configuration for the space debris, restrict its motion, and capture it. (2) As the caging configuration of the capture device can be changed through different module unfolding, it can satisfy different size of the space target. (3) It can save the launch space of the capture mechanism. The multimodule capture mechanism has small volume after folding, which can greatly save the storage space in launch stage. The structure of the capture mechanism based on origami principle is developed, and the grasping configuration design is proposed for different size of the space debris target. In addition, considering the disturbance in process of capture is nonlinear and is hard to obtain accurately, a novel extended state observer-based sliding control is developed for the capture process control. The simulation results demonstrate the efficiency of the control algorithm.
Highlights
Space debris capture is the base of the on-orbit servicing for the noncooperative spacecraft and space debris removal
The structure of the capture mechanism based on origami principle is developed, and the grasping configuration design is proposed for different size of the space debris target
The main contribution of this work includes: (1) a novel space target capture mechanism that can form a suitable configuration for the space debris with different size and shape is developed based on origami principle; (2) based on the capture mechanism, an adaptive capture method that can apply for space debris capture without fixed grasping points is developed; (3) compared to other methods, it can save the launch space using proposed method, as the multimodule capture mechanism has small volume after folding
Summary
Space debris capture is the base of the on-orbit servicing for the noncooperative spacecraft and space debris removal. The main contribution of this work includes: (1) a novel space target capture mechanism that can form a suitable configuration for the space debris with different size and shape is developed based on origami principle; (2) based on the capture mechanism, an adaptive capture method that can apply for space debris capture without fixed grasping points is developed; (3) compared to other methods, it can save the launch space using proposed method, as the multimodule capture mechanism has small volume after folding. Considering the uncertain nonlinear disturbance in the process of the malfunctional satellite capture, an extended state observer (ESO) based sliding control is developed in the fourth section. In capture process, it can form a soccer-like grasping configuration or three/twofinger configuration. A1q_ 1sinð2q2 þ a3q_ 1cosðq2Þsinðq[2] þ c21 1⁄4 Àc12; c22 1⁄4 Àa3q_ 3sinðq3Þ; c23 1⁄4 Àa3ðq_ 2 þ q_ 3Þsinðq3Þ c31 1⁄4 Àc13; c32 1⁄4 Àa3q_ 2sinðq3Þ; c33 1⁄4 0 g1 1⁄4 0; g2 1⁄4 b1cosðq2Þ þ b2cosðq[2] þ q3Þ; g3 1⁄4 b2cosðq[2] þ q3Þ f 1 1⁄4 1sgnðq_ 1Þ; f 2 1⁄4 2sgnðq_ 2Þ; f 3 1⁄4 3sgnðq_ 3Þ a1 1⁄4 m2r22 þ m3l22; a2 1⁄4 m3r32; a3 1⁄4 m3r3l2; b1 1⁄4 ðm2r2 þ m3l2Þg; b2 1⁄4 m3r3g
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