Title :
Study on a Fast Method for Sub-Pixel Edge Detection
Author_Institution :
Inf. & Control Eng. Coll., Weifang Univ., Weifang, China
Abstract :
Aimed at the problem that its difficult to improve the identify precision of the linear CCD scan image, a novel fast sub-pixel edge detection method for image measurement is proposed, the basic process is like this: firstly, according to the step gradient features, automatically calculate the pixel-level border of the CCD image. Then use the wavelet transform algorithm to divide the image´s edge location in sub-pixel level, thus detecting the sub-pixel edge. Key technologies of CCD scanning polymer film materials defects detection are deeply investigated in this thesis. A polymer film materials defects detection system is established. The experimental results demonstrated that defects within 70 μm~1000 μm were inspected effectively by the CCD scanning defects inspection instrument, that this method has a repetition error no more than 0.02 pixels, with high precision and good anti-noise ability.
Keywords :
charge-coupled devices; edge detection; image denoising; object detection; polymer films; wavelet transforms; CCD scanning polymer film; fast subpixel edge detection method; image edge location; inspection instrument; linear CCD scan image; polymer film material defect detection system; wavelet transform algorithm; Charge coupled devices; Circuits; Field programmable gate arrays; Image converters; Image edge detection; Inspection; Lenses; Pixel; Polymer films; Wavelet transforms; Edge detection; Sub-pixel; Wavelet transform; charge coupled device; defects inspection;
Conference_Titel :
Information and Computing (ICIC), 2010 Third International Conference on
Conference_Location :
Wuxi, Jiang Su
Print_ISBN :
978-1-4244-7081-5
Electronic_ISBN :
978-1-4244-7082-2
DOI :
10.1109/ICIC.2010.306
