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Main Authors: Karampela, Theofania, Seshadri, Rishie, Dörfler, Florian, Li, Sarah H. Q.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.09213
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author Karampela, Theofania
Seshadri, Rishie
Dörfler, Florian
Li, Sarah H. Q.
author_facet Karampela, Theofania
Seshadri, Rishie
Dörfler, Florian
Li, Sarah H. Q.
contents In on-orbit robotics, a servicer satellite's ability to make contact with a free-spinning target satellite is essential to completing most on-orbit servicing (OOS) tasks. This manuscript develops a nonlinear model predictive control (MPC) framework that generates feasible controls for a servicer satellite to achieve zero-impulse contact with a free-spinning target satellite. The overall maneuver requires coordination between two separately actuated modules of the servicer satellite: (1) a moment generation module and (2) a manipulation module. We apply MPC to control both modules by explicitly modeling the cross-coupling dynamics between them. We demonstrate that the MPC controller can enforce actuation and state constraints that prior control approaches could not account for. We evaluate the performance of the MPC controller by simulating zero-impulse contact scenarios with a free-spinning target satellite via numerical Monte Carlo (MC) trials and comparing the simulation results with prior control approaches. Our simulation results validate the effectiveness of the MPC controller in maintaining spin synchronization and zero-impulse contact under operation constraints, moving contact location, and observation and actuation noise.
format Preprint
id arxiv_https___arxiv_org_abs_2512_09213
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MPC for momentum counter-balanced and zero-impulse contact with a free-spinning satellite
Karampela, Theofania
Seshadri, Rishie
Dörfler, Florian
Li, Sarah H. Q.
Systems and Control
Robotics
In on-orbit robotics, a servicer satellite's ability to make contact with a free-spinning target satellite is essential to completing most on-orbit servicing (OOS) tasks. This manuscript develops a nonlinear model predictive control (MPC) framework that generates feasible controls for a servicer satellite to achieve zero-impulse contact with a free-spinning target satellite. The overall maneuver requires coordination between two separately actuated modules of the servicer satellite: (1) a moment generation module and (2) a manipulation module. We apply MPC to control both modules by explicitly modeling the cross-coupling dynamics between them. We demonstrate that the MPC controller can enforce actuation and state constraints that prior control approaches could not account for. We evaluate the performance of the MPC controller by simulating zero-impulse contact scenarios with a free-spinning target satellite via numerical Monte Carlo (MC) trials and comparing the simulation results with prior control approaches. Our simulation results validate the effectiveness of the MPC controller in maintaining spin synchronization and zero-impulse contact under operation constraints, moving contact location, and observation and actuation noise.
title MPC for momentum counter-balanced and zero-impulse contact with a free-spinning satellite
topic Systems and Control
Robotics
url https://arxiv.org/abs/2512.09213