A big challenge in geodata processing is the seamless and accurate integration of airborne LiDAR (Light Detection And Ranging) and photogrammetric point clouds performed by properly considering their high variations in resolution and precision. In this paper we propose a new approach to co-register airborne point clouds acquired by LiDAR sensors and photogrammetric algorithms, assuming that only dense point clouds from both mapping methods are available, without LiDAR raw data nor flight trajectories. First, semantically segmented point clouds are quality-wise evaluated by assigning sensor-specific quality features to each 3D point. Then, these quality features are aggregated in order to assign a score to each 3D point based on its quality....
Acquiring 3D data with LiDAR systems involves scanning multiple scenes from different points of view...
Textured models of large-scale urban environments are desired in many applications involving scene v...
The automatic and accurate alignment of multiple point clouds is a basic requirement for an adequate...
International audienceTerrestrial and airborne laser scanning, photogrammetry and more generally 3D ...
When 3D laser scanning (LIDAR) is used for navigation of autonomous vehicles operated on unstructure...
Light detection and ranging (LiDAR) has become a mainstream technique for rapid acquisition of 3-D g...
The integration of multi-platform, multi-angle, and multi-temporal LiDAR data has become important f...
This article proposes a method for registration of two different point clouds with different point d...
This paper describes an algorithm framework for registration of airborne based laser scanning data (...
Light Detection and Ranging (LiDAR) is an active sensor that can effectively acquire a large number ...
This paper presents a method to register photogrammetric point clouds generated from optical images ...
An approach to automatically coregister 3-D point cloud surfaces from unmanned aerial systems (UASs)...
Digital Terrain Models (DTMs) can be generated from point clouds acquired by laser scanning or photo...
Digital Terrain Models (DTMs) can be generated from point clouds acquired by laser scanning or photo...
Light Detection And Ranging (LiDAR) mapping has been emerging over the past few years as a mainstrea...
Acquiring 3D data with LiDAR systems involves scanning multiple scenes from different points of view...
Textured models of large-scale urban environments are desired in many applications involving scene v...
The automatic and accurate alignment of multiple point clouds is a basic requirement for an adequate...
International audienceTerrestrial and airborne laser scanning, photogrammetry and more generally 3D ...
When 3D laser scanning (LIDAR) is used for navigation of autonomous vehicles operated on unstructure...
Light detection and ranging (LiDAR) has become a mainstream technique for rapid acquisition of 3-D g...
The integration of multi-platform, multi-angle, and multi-temporal LiDAR data has become important f...
This article proposes a method for registration of two different point clouds with different point d...
This paper describes an algorithm framework for registration of airborne based laser scanning data (...
Light Detection and Ranging (LiDAR) is an active sensor that can effectively acquire a large number ...
This paper presents a method to register photogrammetric point clouds generated from optical images ...
An approach to automatically coregister 3-D point cloud surfaces from unmanned aerial systems (UASs)...
Digital Terrain Models (DTMs) can be generated from point clouds acquired by laser scanning or photo...
Digital Terrain Models (DTMs) can be generated from point clouds acquired by laser scanning or photo...
Light Detection And Ranging (LiDAR) mapping has been emerging over the past few years as a mainstrea...
Acquiring 3D data with LiDAR systems involves scanning multiple scenes from different points of view...
Textured models of large-scale urban environments are desired in many applications involving scene v...
The automatic and accurate alignment of multiple point clouds is a basic requirement for an adequate...