We present a numerical method to compute singularity sets in the configuration space of free-floating robots, comparing two different criteria based on formal methods. By exploiting specific properties of free-floating systems and an alternative formulation of the generalized Jacobian, the search space and computational complexity of the algorithm is reduced. It is shown that the resulting singularity maps can be applied in the context of trajectory planning to guarantee feasibility with respect to singularity avoidance. The proposed approach is validated on a space robot composed of a six degrees-of-freedom (DOF) arm mounted on a body with six DOF
Kinematics is a branch of classical mechanics that describes the motion of points, bodies, and syste...
This paper deals with the singularities of kinematically redundant manipulators in terms of determin...
The inverse kinematics problem is formulated as a parameterized autonomous dynamical system problem,...
As a new on-orbit detection platform, the space robot could ensure stable and reliable operation of ...
As a new on-orbit detection platform, the space robot could ensure stable and reliable operation of ...
The final publication is available at link.springer.comForward singularities, also known as direct, ...
This thesis develops general solutions to two open problems of robot kinematics: the exhaustive comp...
This paper extends the solution, already presented to the trajectory planning problem of 2D free-f...
Singularity in robot controls is an important problem. By identifying an appropriate trajectory for ...
This paper addresses the singularities avoidance problem while performing a grasping maneuver in tel...
This book presents the singular configurations associated with a robot mechanism, together with robu...
International audienceWe propose a robust method to handle kinematic and algorithmic singularities o...
Cartesian trajectory planning of a free-floating space robot is impacted by dynamic singularities du...
Future on-orbit servicing and assembly missions will require space robots capable of manoeuvring saf...
International audienceTrajectory planning is a critical step while programming the parallel manipula...
Kinematics is a branch of classical mechanics that describes the motion of points, bodies, and syste...
This paper deals with the singularities of kinematically redundant manipulators in terms of determin...
The inverse kinematics problem is formulated as a parameterized autonomous dynamical system problem,...
As a new on-orbit detection platform, the space robot could ensure stable and reliable operation of ...
As a new on-orbit detection platform, the space robot could ensure stable and reliable operation of ...
The final publication is available at link.springer.comForward singularities, also known as direct, ...
This thesis develops general solutions to two open problems of robot kinematics: the exhaustive comp...
This paper extends the solution, already presented to the trajectory planning problem of 2D free-f...
Singularity in robot controls is an important problem. By identifying an appropriate trajectory for ...
This paper addresses the singularities avoidance problem while performing a grasping maneuver in tel...
This book presents the singular configurations associated with a robot mechanism, together with robu...
International audienceWe propose a robust method to handle kinematic and algorithmic singularities o...
Cartesian trajectory planning of a free-floating space robot is impacted by dynamic singularities du...
Future on-orbit servicing and assembly missions will require space robots capable of manoeuvring saf...
International audienceTrajectory planning is a critical step while programming the parallel manipula...
Kinematics is a branch of classical mechanics that describes the motion of points, bodies, and syste...
This paper deals with the singularities of kinematically redundant manipulators in terms of determin...
The inverse kinematics problem is formulated as a parameterized autonomous dynamical system problem,...