Novel Approach of Surface Unfolding for Ceramic Bowls
Автор: Xien Cheng, Jinghua Zheng
Журнал: International Journal of Engineering and Manufacturing(IJEM) @ijem
Статья в выпуске: 3 vol.1, 2011 года.
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Recent years, the significant advantage has been taken by ceramic industrial from the strong evolution in automation. All production phases have been addressed through various technical innovations, with the exception of the final stage of the manufacturing process. When applying computer vision on ceramic product quality inspection, the different kind of product of ceramic makes it difficult, especially on ceramic bowls, which have a curved surface. It is difficult to analyze rapidness and catch the production rate. This paper proposed an approach for automatic surface imperfection inspection of ceramic products. The bowl’s curved surface unfolding model was discussed derived from helicoid unfolding method. Experiment shows that this method can be nicety.
Imperfection inspection, surface unfolding, classification, unfolding mechanism
Короткий адрес: https://sciup.org/15014127
IDR: 15014127
Список литературы Novel Approach of Surface Unfolding for Ceramic Bowls
- Su Caihong, Zhu Xuefeng, and L. Di, Precise automatic image registration method of the defect detection for cermamic tiles. Journal of South China University of Technology(Natural Science Edition), 2004. 32(4): p. 33-36.(in Chinese)
- Zhu Daguo, Zhong Kehong, and Z. Chengping, One pragmatic method for dimension on-line inspection. Journal of Computer Engineering and Applications, 2003(7): p. 204-206. (in Chinese)
- H. M. Elbehiery, A. A. Hefnawy, and M.T. Elewa. Visual Inspection for Fired Ceramic Tile's Surface Defects using Wavelet Analysis. in icgst. 2003.
- International, A., Standard Terminology Relating to Surface Imperfections on Ceramics, in F 109-04, W. Conshohocken, Editor. 2004: United States.
- CHENG Zhuan-wei, et al., The Application of Image Processing Techniques in the Testing of Surface Defects. Microcomputer Information, 2008. 24(15): p. 312-314. (in Chinese)
- Rafael C. Gonzalez and R.E. Woods, Digital image processing. Second ed. 2001: Prentice Hall.
- YANG Tie-bin, et al., A New Method for Unfolding of Ceramic Bearing Ball and Inspection of Its Surface Defects. Acta Armamentarii, 2006. 27(4): p. 708-711.
- Zhao Yong, Li Pengsheng, and P. Zhaobang, Development and Application of Fiber-Optic Displacement Sensor. Journal of Transducer Technology, 1999. 18(2): p. 4-6. (in Chinese)
- Zhang Huaiyu and L. Xuejin, Design of Electronical Circuit for the Linearity Compensation of a Reflective Type Fiber-Optic Displacement Sensor Journal of Transducer Technology, 1999. 18(1): p. 19-22. (in Chinese)
- WANG Yan-song, JIN Wei-qi, and Z. Ke-hong, Defect Inspection Method for Random Texture Surface and Its Applications. Journal of Image and Graphics, 2009. 14(1): p. 131-135. (in Chinese)
- WU Cheng-dong, et al., The Segment of the Defect-tile Image Based on Wavelet Transforms. Journal of Shenyang Jianzhu University(Natural Science), 2006. 22(3): p. 500-503. (in Chinese)
- ZHONG Ke-hong, DING Ming-yue, and Z. Cheng-ping, Texture defect inspection method using difference statistics feature in wavelet domain. Systems Engineering and Electronics, 2004. 26(5): p. 660-664. (in Chinese)
- Mirmehdi, M., Segmentation of Color Textures. IEEE Trans.PAMI, 2000. 22(2): p. 142-159.