Title :
Axial-Stereo 3D Optical Metrology of Internally Machined Parts Using High-Quality Imaging from a Scanning Laser Endoscope
Author :
Yuanzheng Gong ; Johnston, Richard S. ; Melville, C. David ; Seibel, Eric J.
Author_Institution :
Mech. Eng., Univ. of Washington, Seattle, WA, USA
Abstract :
As the rapid progress in the development of optoelectronic components and computational power, 3D optical metrology becomes more and more popular in manufacturing and quality control due to its flexibility and high speed. However, most of the optical metrology methods are limited to external surface. This paper proposed a new approach to measure tiny internal 3D surfaces with a scanning fiber endoscope and axial-stereo vision algorithm. A dense, accurate point cloud of internally machined threads was generated to compare with its corresponding X-ray 3D data as ground truth, and the quantification was analyzed by iterative closest points (ICP) algorithm.
Keywords :
endoscopes; iterative methods; measurement by laser beam; stereo image processing; axial-stereo vision algorithm; axialstereo 3D optical metrology; high-quality imaging; iterative closest points algorithm; scanning fiber endoscope; scanning laser endoscope; Image reconstruction; Integrated optics; Metrology; Optical fibers; Optical imaging; Three-dimensional displays; 3D optical metrology; axial-stereo; internal surface; machine vision; non-contact inspection; scanning laser endoscope;
Conference_Titel :
Optomechatronic Technologies (ISOT), 2014 International Symposium on
DOI :
10.1109/ISOT.2014.61
