Title :
A robotic laser pipeline profiler
Author :
Johnson, Martin ; Gupta, G. Sen
Author_Institution :
IIMS, Massey Univ., Albany, New Zealand
Abstract :
This paper describes a pipeline profiling robot which uses a laser to build a 3D model of the inside of a pipe. The robot travels down the pipe finding the profile in real time using a laser and a camera. The laser is used to draw a line around the edge of the pipe; this line is then extracted from acquired images using recursive Gaussian filtering. Three methods were examined for fitting a circle to the profile, two variations of the Hough transform and a random sampling method. The random sampling method was found to be the most flexible and efficient. The extracted profile points were used to construct a 3D model of a pipe section. This model can be viewed using a model viewer written using OpenGL. Results are presented showing the system to be effective and robust.
Keywords :
cameras; computer graphics; edge detection; image processing; lasers; pipelines; robot vision; sampling methods; structural engineering computing; 3D pipe model; Hough transform; OpenGL; circle fitting; extracted profile; model viewer; pipe profile finding; pipeline profiling robot; random sampling method; recursive Gaussian filtering; robotic laser pipeline profiler; Cameras; Fiber lasers; Filtering; Image edge detection; Inspection; Laser modes; Laser noise; Pipelines; Robot vision systems; Semiconductor lasers;
Conference_Titel :
Instrumentation and Measurement Technology Conference, 2003. IMTC '03. Proceedings of the 20th IEEE
Print_ISBN :
0-7803-7705-2
DOI :
10.1109/IMTC.2003.1207997
