DocumentCode
3515735
Title
Improving point-cloud accuracy from a moving platform in field operations
Author
Almqvist, Hakan ; Magnusson, Martin ; Stoyanov, Todor ; Lilienthal, Achim J.
Author_Institution
Centre for Appl. Autonomous Sensor Syst. (AASS), Orebro Univ., Orebro, Sweden
fYear
2013
fDate
6-10 May 2013
Firstpage
733
Lastpage
738
Abstract
This paper presents a method for improving the quality of distorted 3D point clouds made from a vehicle equipped with a laser scanner moving over uneven terrain. Existing methods that use 3D point-cloud data (for tasks such as mapping, localisation, and object detection) typically assume that each point cloud is accurate. For autonomous robots moving in rough terrain, it is often the case that the vehicle moves a substantial amount during the acquisition of one point cloud, in which case the data will be distorted. The method proposed in this paper is capable of increasing the accuracy of 3D point clouds, without assuming any specific features of the environment (such as planar walls), without resorting to a “stop-scan-go” approach, and without relying on specialised and expensive hardware. Each new point cloud is matched to the previous using normal-distribution-transform (NDT) registration, after which a mini-loop closure is performed with a local, per-scan, graph-based SLAM method. The proposed method increases the accuracy of both the measured platform trajectory and the point cloud. The method is validated on both real-world and simulated data.
Keywords
SLAM (robots); graph theory; normal distribution; 3D point-cloud data; NDT registration; autonomous robots; graph-based SLAM method; mini-loop closure; normal-distribution-transform registration; point-cloud accuracy; stop-scan-go approach; Accuracy; Clouds; Laser radar; Robot sensing systems; Three-dimensional displays; Vehicles; Wheels;
fLanguage
English
Publisher
ieee
Conference_Titel
Robotics and Automation (ICRA), 2013 IEEE International Conference on
Conference_Location
Karlsruhe
ISSN
1050-4729
Print_ISBN
978-1-4673-5641-1
Type
conf
DOI
10.1109/ICRA.2013.6630654
Filename
6630654
Link To Document