This paper deals with the problem of 3D surface reconstruction processing point clouds produced by a LIDAR. In the framework of an algorithmic architecture for pose determination of an uncooperative spacecraft, this functionality is required to update the existing model of the target geometry (reference model), if a non-negligible inconsistency with respect to its real geometry is detected. Hence, two original approaches to generate triangular mesh models from point clouds are developed, which are based on the marching-cube and Delaunay triangulation concepts, respectively. The output of these techniques can then be exploited within an original algorithmic strategy conceived to carry out the update function on the reference model, aiming at...
This paper deals with pose estimation of an uncooperative target by exploiting 3D point clouds which...
Proceedings of: XXIV ISPRS Congress 2022: International Society for Photogrammetry and Remote Sensin...
This paper deals with the problem of spaceborne pose determination of uncooperative targets, e.g. sp...
This paper deals with the problem of 3D surface reconstruction processing point clouds produced by a...
In this paper an original, easy to reproduce, semi-analytic calibration approach is developed for ha...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of u...
This paper presents an experimental activity carried out to evaluate the performance of LIDAR-based ...
Object feature extraction and 3D model reconstruction methodology is desirable in many applications ...
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...
Since the invention in early of the 1960s, Light Detection And Ranging (LiDAR)s have been used for d...
There is no denying that the ever-increasing demand in space endeavours calls for more sustainable e...
This paper presents innovative model-based algorithms developed for pose estimation of uncooperative...
Recent NASA simulations regarding the debris population in low Earth orbit have demonstrated the nee...
This paper deals with pose estimation of an uncooperative target by exploiting 3D point clouds which...
Proceedings of: XXIV ISPRS Congress 2022: International Society for Photogrammetry and Remote Sensin...
This paper deals with the problem of spaceborne pose determination of uncooperative targets, e.g. sp...
This paper deals with the problem of 3D surface reconstruction processing point clouds produced by a...
In this paper an original, easy to reproduce, semi-analytic calibration approach is developed for ha...
This paper aims at investigating the performance of a LIDAR-based system for pose determination of u...
This paper presents an experimental activity carried out to evaluate the performance of LIDAR-based ...
Object feature extraction and 3D model reconstruction methodology is desirable in many applications ...
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...
Since the invention in early of the 1960s, Light Detection And Ranging (LiDAR)s have been used for d...
There is no denying that the ever-increasing demand in space endeavours calls for more sustainable e...
This paper presents innovative model-based algorithms developed for pose estimation of uncooperative...
Recent NASA simulations regarding the debris population in low Earth orbit have demonstrated the nee...
This paper deals with pose estimation of an uncooperative target by exploiting 3D point clouds which...
Proceedings of: XXIV ISPRS Congress 2022: International Society for Photogrammetry and Remote Sensin...
This paper deals with the problem of spaceborne pose determination of uncooperative targets, e.g. sp...