Tomasz Rybus scite author profile

SUMMARYIt is usually proposed to use a robotic manipulator for performing on-orbit capture of a target satellite in the planned active debris removal and on-orbit servicing missions. Control of the satellite-manipulator system is challenging because motion of the manipulator influences position and orientation of the chaser satellite. Moreover, the trajectory selected for the capture manoeuvre must be collision-free. In this article, we consider the case of a nonredundant manipulator mounted on a free-floating satellite.We propose to use the bi-directional rapidly-exploring random trees (RRT) algorithm to achieve two purposes: to plan a collision-free manipulator trajectory that, at the same time, will result in a desired change of the chaser satellite orientation. Several improvements are introduced in comparison to the previous applications of the RRT method for manipulator mounted on a free-floating satellite. Feasibility of the proposed approach is demonstrated in numerical simulations performed for the planar case in which the chaser satellite is equipped with a 2-DoF (Degree of Freedom) manipulator. The obtained results are analysed and compared with the results obtained from collision-free trajectory planning methods that do not allow to set the desired final orientation of the chaser satellite.

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Application of Rapidly-exploring Random Trees (RRT) algorithm for trajectory planning of free-floating space manipulator

Rybus

Seweryn

2015

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Trajectory Optimization of Space Manipulator with Non-zero Angular Momentum During Orbital Capture Maneuver

Rybus

Seweryn

Sąsiadek

2016

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Application of a planar air-bearing microgravity simulator for demonstration of operations required for an orbital capture with a manipulator

et al. 2019

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Optimal collision-free path planning of a free-floating space robot using spline-based trajectories

2022

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Tomasz Rybus

Control System for Free-Floating Space Manipulator Based on Nonlinear Model Predictive Control (NMPC)

Obstacle avoidance in space robotics: Review of major challenges and proposed solutions

Planar air-bearing microgravity simulators: Review of applications, existing solutions and design parameters

Point-to-Point Motion Planning of a Free-Floating Space Manipulator Using the Rapidly-Exploring Random Trees (RRT) Method

Application of Rapidly-exploring Random Trees (RRT) algorithm for trajectory planning of free-floating space manipulator

Trajectory Optimization of Space Manipulator with Non-zero Angular Momentum During Orbital Capture Maneuver

Application of a planar air-bearing microgravity simulator for demonstration of operations required for an orbital capture with a manipulator

Optimal collision-free path planning of a free-floating space robot using spline-based trajectories

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