Author:
Kodama Hiroyuki, ,Hirogaki Toshiki,Aoyama Eiichi,Ogawa Keiji, ,
Abstract
Data mining supports decision making about reasonable end-milling conditions. Our research objective is to excavate new knowledge with mining effect by applying data mining techniques to a tool catalog. We use hierarchical and nonhierarchical clustering data mining with catalog data by applying multiple regression analysis and focusing on the catalog data shape element. We visually grouped end-mills on the basis of tool shape, considering the ratio of tool shape dimensions, by employing the K-means method. We found that factors related to blade length and full length ratio are effective in for making end-milling condition decisions. These factors have not previously been singled out through background knowledge or expert knowledge, but they were noticed as a data mining effect.
Publisher
Fuji Technology Press Ltd.
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Reference9 articles.
1. U. Fayyad et al., “From Data Mining to Knowledge Discovery in Databases,” AI Magazine, pp. 37-54, 1996.
2. R. Jonathan, M. Hosking et al., “A Statistical Perceptive on Data Mining,” Future Generation Computer Systems, Vol.13, pp. 117-134, 1997.
3. G. Clark et al., “Statistical Inference and Data Mining,” Communications of the ACM, Vol.39, No.11, pp. 35-41, 1996.
4. G. Christine and D. Alan, “Knowledge Discovery from Industrial Databases,” J. of Intelligent Manufacturing, Vol.15, pp. 29-37, 2004.
5. O. Keiji, H. Toshiki, A. Eiichi, I. Tadayuki, N. Hiromichi, and Y. Katsutoshi, “Improving Machining Quality Using Data Mining (Application to Micro-Drilling of PWBS),” Procs. of JUSFA2004, JL007, pp. 1-6, 2004.
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