@techreport{oai:iwate-u.repo.nii.ac.jp:00010074,
 author = {井山, 俊郎 and 水野, 雅裕 and 西川, 尚宏 and 松井, 貴志},
 issue = {5},
 month = {May},
 note = {In a high quality machining-assembly production system applied a corrective assembly approach, a measurement error, which occurs in measuring a processing error of assembly part, causes an incorrect allocation of reprocessing machines and reduces a production rate of high quality assembly products. In this paper we consider a method for maximizing the production rate of assembly products which consist of two assembly parts and satisfy a predetermined assembly tolerance. In this method two optimal parameters are searched in order to maximize the production rate: one is a range of measurement assembly error which determines how to select a correct reprocessing machine and another is an adjustment size of each reprocessing machine. A relay production system is used to present the validity of the method and to investigate effects of machining accuracy, measurement accuracy and adjustment accuracy on the maximum production rate and the optimal parameters. The two main results indicate: (1) A range of measurement assembly error and an adjustment size of each reprocessing machine affect the production rate of assembly products within a predetermined assembly tolerance. (2) There exist the optimal range and the optimal adjustment size which maximize the production rate, and they vary according to a combination of machining accuracy, measurement accuracy and reprocessing accuracy in a system.},
 title = {修正法を用いた高精度加工組立生産システムに関する研究－最適な測定組立誤差範囲と修正加工量－},
 year = {2008}
}