Name
Title | ||
|---|---|---|
Minimum disturbance control based on synchronous and adaptive acceleration planning of dual-arm space robot to capture a rotating target |
Abstract | ||
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Purpose This study aims to design a controller which can improve the end-effector low-frequency chattering resulting from the measurement noise and the time delay in the on-orbit tasks. The rendezvous point will move along the rendezvous ring owing to the error of the camera, and the manipulators' collision need be avoided. In addition, owing to the dynamics coupling, the manipulators' motion will disturb the spacecraft, and the low tracking accuracy of the end-effector needs to be improved. Design/methodology/approach This paper proposes a minimum disturbance controller based on the synchronous and adaptive acceleration planning to improve the tracking error and the disturbance energy. The synchronous and adaptive acceleration planning method plans the optimal rendezvous point and designs synchronous approaching method and provides an estimation method of the rendezvous point acceleration. A minimum disturbance controller is designed based on the energy conservation to optimize the disturbance resulting from the manipulator's motion. Findings The acceleration planning method avoids the collision of two end-effectors and reduces the error caused by the low-frequency chattering. The minimum disturbance controller minimizes the disturbance energy of the manipulators' motion transferred to the spacecraft. Experiment results show that the proposed method improves the low-frequency chattering, and the average position tracking error reduces by 30%, and disturbance energy reduces by 30% at least. In addition, it has good performances in the synchronous motion and adaptive tracking. Originality/value Given the immeasurability of the target satellite acceleration in space, this paper proposes an estimation method of the acceleration. This paper proposes a synchronous and adaptive acceleration planning method. In addition, the rendezvous points are optimized to avoid the two end-effectors collisions. By the energy conservation, the minimum disturbance controller is designed to ensure a satisfying tracking error and reduce the disturbance energy resulting from the manipulators' motion. |
Year | DOI | Venue |
|---|---|---|
2022 | 10.1108/IR-12-2021-0291 | INDUSTRIAL ROBOT-THE INTERNATIONAL JOURNAL OF ROBOTICS RESEARCH AND APPLICATION |
Keywords | DocType | Volume |
Adaptive tracking scheme, Synchronous acceleration planning, Minimum disturbance control, Space robots, Dynamics model | Journal | 49 |
Issue | ISSN | Citations |
6 | 0143-991X | 0 |
PageRank | References | Authors |
0.34 | 0 | 5 |
Name | Order | Citations | PageRank |
|---|---|---|---|
| Quan Liu | 1 | 28 | 12.17 |
| Shicai Shi | 2 | 0 | 0.34 |
| Minghe Jin | 3 | 1 | 1.70 |
| Shaowei Fan | 4 | 0 | 1.35 |
| Hong Liu | 5 | 502 | 79.68 |