This paper presents a customized 3D template matching technique for autonomous pose determination of uncooperative targets. This topic is relevant to advanced space applications, like active debris removal and on-orbit servicing. The proposed technique is model-based and produces estimates of the target pose without any prior information by processing three-dimensional point clouds provided by a LIDAR. These estimates are then used to initialize a pose tracking algorithm. Peculiar features of the proposed approach are the use of a reduced number of templates and the idea of building the database of templates on-line, thus significantly reducing the amount of on-board stored data with respect to traditional techniques. An algorithm variant i...
This paper proposes an autonomous algorithm to determine the relative pose between the chaser spacec...
This paper presents an experimental activity carried out to evaluate the performance of LIDAR-based ...
The need to remove space junk from crowded orbital regimes has fostered the interest towards the dev...
This paper presents a customized three-dimensional template matching technique for autonomous pose d...
This paper presents a customized 3D template matching technique for autonomous pose determination of...
This paper deals with pose estimation of an uncooperative target by exploiting 3D point clouds which...
This paper presents innovative model-based algorithms developed for pose estimation of uncooperative...
This paper deals with the problem of spaceborne pose determination of uncooperative targets, e.g. sp...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of u...
This paper presents an innovative template matching technique to perform the pose acquisition of an ...
Recent NASA simulations regarding the debris population in low Earth orbit have demonstrated the nee...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of a...
Non cooperative on-orbit operations, such as rendezvous, docking or berthing operations, have become...
This paper deals with the problem of 3D surface reconstruction processing point clouds produced by a...
This paper proposes an autonomous algorithm to determine the relative pose between the chaser spacec...
This paper presents an experimental activity carried out to evaluate the performance of LIDAR-based ...
The need to remove space junk from crowded orbital regimes has fostered the interest towards the dev...
This paper presents a customized three-dimensional template matching technique for autonomous pose d...
This paper presents a customized 3D template matching technique for autonomous pose determination of...
This paper deals with pose estimation of an uncooperative target by exploiting 3D point clouds which...
This paper presents innovative model-based algorithms developed for pose estimation of uncooperative...
This paper deals with the problem of spaceborne pose determination of uncooperative targets, e.g. sp...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of u...
This paper presents an innovative template matching technique to perform the pose acquisition of an ...
Recent NASA simulations regarding the debris population in low Earth orbit have demonstrated the nee...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of a...
Non cooperative on-orbit operations, such as rendezvous, docking or berthing operations, have become...
This paper deals with the problem of 3D surface reconstruction processing point clouds produced by a...
This paper proposes an autonomous algorithm to determine the relative pose between the chaser spacec...
This paper presents an experimental activity carried out to evaluate the performance of LIDAR-based ...
The need to remove space junk from crowded orbital regimes has fostered the interest towards the dev...