Title :
Automatic Identification of Large Fragments in a Pile of Broken Rock Using a Time-of-Flight Camera
Author :
McKinnon, Christopher ; Marshall, Joshua A.
Author_Institution :
Inst. for Aerosp. Studies, Univ. of Toronto, Toronto, ON, Canada
Abstract :
This paper presents a solution to part of the problem of making robotic or semi-robotic digging equipment less dependant on human supervision. A method is described for identifying rocks of a certain size that may affect digging efficiency or require special handling. The process involves three main steps. First, by using range and intensity data from a time-of-flight (TOF) camera, a feature descriptor is used to rank points and separate regions surrounding high scoring points. This allows a wide range of rocks to be recognized because features can represent a whole or just part of a rock. Second, these points are filtered to extract only points thought to belong to the large object. Finally, a check is carried out to verify that the resultant point cloud actually represents a rock. Results are presented from field testing on piles of fragmented rock.
Keywords :
cameras; foundations; geotechnical engineering; industrial robots; object detection; robot vision; rocks; structural engineering; TOF camera; broken rock pile; fragments identification; intensity data; points extraction; range data; robotic digging equipment; scoring points; semi-robotic digging equipment; time-of-flight camera; Bridges; Cameras; Feature extraction; Noise; Robot vision systems; Rocks; Shape; Field robotics; mining and construction automation; object identification; point cloud data processing;
Journal_Title :
Automation Science and Engineering, IEEE Transactions on
DOI :
10.1109/TASE.2014.2308011
