This paper presents the development of a real-time path-planning optimization approach to controlling the motion of space-based robots. The algorithm is capable of designing a trajectory for a robot to navigate within complex surroundings that include numerous obstacles (generalized shapes) and constraints (geometric and performance limitations). The methodology employs a unique transformation that effectively changes a complex optimization problem into one with a positive definite cost function that enables high convergence rates for complex geometries, enabling its application to real-time operations. This strategy was implemented on the Synchronized Position Hold Engage Reorient Experimental Satellite (SPHERES) test-bed on the Internatio...
Abstract. This paper describes a technique for planning collision-free, fuel-efficient paths and thr...
Although many motion planning strategies for missions involving space robots capturing floating targ...
Safe operation of autonomous systems demands a collision-free motion trajectory at every time instan...
Abstract. This paper illustrates the use of the general-purpose multibody free software MBDyn for tr...
Optimal trajectory planning is considered as a solved problem in robotics for offline situations. On...
This research develops automated, on-board trajectory planning algorithms in order to support curren...
Future on-orbit servicing and assembly missions will require space robots capable of manoeuvring saf...
Within this thesis, methods for on-board trajectory optimization and optimal control regarding diffe...
This thesis describes the path planning of manipulators in space with obstacles, while using an alte...
This paper adds on to the on-going efforts to provide more autonomy to space robots and introduces t...
Optimal path planning for a shuttle mounted remote manipulator system is in-vestigated. Shuttle, rob...
This paper describes the integration of robot path-planning and spatial task modeling into a softwar...
Robotics is a key enabler for many applications in space including planetary exploration, On-Orbit S...
Space robotic solutions are gaining importance for undertaking in-orbit operations such as maintenan...
International audienceSampling Based Motion Planning (SBMP) techniques are widely used in robotics t...
Abstract. This paper describes a technique for planning collision-free, fuel-efficient paths and thr...
Although many motion planning strategies for missions involving space robots capturing floating targ...
Safe operation of autonomous systems demands a collision-free motion trajectory at every time instan...
Abstract. This paper illustrates the use of the general-purpose multibody free software MBDyn for tr...
Optimal trajectory planning is considered as a solved problem in robotics for offline situations. On...
This research develops automated, on-board trajectory planning algorithms in order to support curren...
Future on-orbit servicing and assembly missions will require space robots capable of manoeuvring saf...
Within this thesis, methods for on-board trajectory optimization and optimal control regarding diffe...
This thesis describes the path planning of manipulators in space with obstacles, while using an alte...
This paper adds on to the on-going efforts to provide more autonomy to space robots and introduces t...
Optimal path planning for a shuttle mounted remote manipulator system is in-vestigated. Shuttle, rob...
This paper describes the integration of robot path-planning and spatial task modeling into a softwar...
Robotics is a key enabler for many applications in space including planetary exploration, On-Orbit S...
Space robotic solutions are gaining importance for undertaking in-orbit operations such as maintenan...
International audienceSampling Based Motion Planning (SBMP) techniques are widely used in robotics t...
Abstract. This paper describes a technique for planning collision-free, fuel-efficient paths and thr...
Although many motion planning strategies for missions involving space robots capturing floating targ...
Safe operation of autonomous systems demands a collision-free motion trajectory at every time instan...