Add to ORKGThe problem of planning safe kinematic approach trajectories for robotic capture of an uncontrolled rotating satellite is addressed, and two methods of trajectory planning are presented. The first method uses equations of orbital mechanics to plan a passive fly-by approach path for certain conditions of target satellite motion. The second method uses optimization techniques to plan an approach trajectory that is optimized with respect to a set of performance metrics. Results of these methods for representative scenarios are presented, and the relative merits of each method are discussed. 1
Motion or trajectory planning is a key aspect of the advances in the performance and autonomy of spa...
This paper considers motion planning for small satellites such as CubeSats performing proximity oper...
Space Debris removal is a critical issue related to space research. One of the key requirements for ...
ABSTRACT The problem of planning a safe trajectory for a free-flying robot to approach an uncontroll...
We present a motion planning method based on nonlinear optimization to provide reference trajectorie...
Abstract: On-orbit rescuing uncontrolled spinning satellite (USS) using space robot is a great chall...
International audienceSampling Based Motion Planning (SBMP) techniques are widely used in robotics t...
The spacecraft’s lifetime is often limited by reliability and redundancy of its components. Furtherm...
The work presented in this thesis is motivated by the great strength of optimal control and numerica...
Although many motion planning strategies for missions involving space robots capturing floating targ...
Abstract — This paper deals with problems related to the capture of a tumbling satellite by a space ...
Satellites flying in close proximity can provide many advantages over a single monolithic system.How...
This thesis investigates the use of model-based predictive control for the capture of a multidegree-...
This electronic version was submitted by the student author. The certified thesis is available in th...
Satellites flying in close proximity can provide many advantages over a single monolithic system whe...
Motion or trajectory planning is a key aspect of the advances in the performance and autonomy of spa...
This paper considers motion planning for small satellites such as CubeSats performing proximity oper...
Space Debris removal is a critical issue related to space research. One of the key requirements for ...
ABSTRACT The problem of planning a safe trajectory for a free-flying robot to approach an uncontroll...
We present a motion planning method based on nonlinear optimization to provide reference trajectorie...
Abstract: On-orbit rescuing uncontrolled spinning satellite (USS) using space robot is a great chall...
International audienceSampling Based Motion Planning (SBMP) techniques are widely used in robotics t...
The spacecraft’s lifetime is often limited by reliability and redundancy of its components. Furtherm...
The work presented in this thesis is motivated by the great strength of optimal control and numerica...
Although many motion planning strategies for missions involving space robots capturing floating targ...
Abstract — This paper deals with problems related to the capture of a tumbling satellite by a space ...
Satellites flying in close proximity can provide many advantages over a single monolithic system.How...
This thesis investigates the use of model-based predictive control for the capture of a multidegree-...
This electronic version was submitted by the student author. The certified thesis is available in th...
Satellites flying in close proximity can provide many advantages over a single monolithic system whe...
Motion or trajectory planning is a key aspect of the advances in the performance and autonomy of spa...
This paper considers motion planning for small satellites such as CubeSats performing proximity oper...
Space Debris removal is a critical issue related to space research. One of the key requirements for ...