A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing

碩士 === 國立交通大學 === 工業工程與管理系所 === 96 === Process yield is a very important performance index for manufacturing. In order to enhance yield, process data will be automatically or semi-automatically recorded for diagnosing faults. Many production processes often involve hundreds of process and quality pa...

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Main Authors: Kuan-Hsien Chiang, 江冠賢
Other Authors: Muh-Cherng Wu
Format: Others
Language:zh-TW
Published: 2008
Online Access:http://ndltd.ncl.edu.tw/handle/52770366408172516744
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spelling ndltd-TW-096NCTU50310322015-10-13T13:51:49Z http://ndltd.ncl.edu.tw/handle/52770366408172516744 A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing 應用資料探勘技術控制PI製程之膜厚變異 Kuan-Hsien Chiang 江冠賢 碩士 國立交通大學 工業工程與管理系所 96 Process yield is a very important performance index for manufacturing. In order to enhance yield, process data will be automatically or semi-automatically recorded for diagnosing faults. Many production processes often involve hundreds of process and quality parameters. As a result, finding the root causes of process variation becomes a difficult problem. This study combined data mining techniques and statistical methods to develop a solution framework for identifying the critical process parameters. This framework applied 1R algorithm to identify the clue variables, and then used correlation analysis and domain knowledge to find the to-be-controlled variables. Finally, it utilized regression analysis to set the value of the to-be-controlled variables. We validated this framework with an empirical study about the control of thickness variation for polyimide film manufacturing. Results indicated that the process yield has been improved from 41.7 % to 61 %. Moreover, we compared four versions of 1R with four versions of C4.5, and our initial results show the promise of 1R algorithm to improve the process variation. Muh-Cherng Wu 巫木誠 2008 學位論文 ; thesis 42 zh-TW
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description 碩士 === 國立交通大學 === 工業工程與管理系所 === 96 === Process yield is a very important performance index for manufacturing. In order to enhance yield, process data will be automatically or semi-automatically recorded for diagnosing faults. Many production processes often involve hundreds of process and quality parameters. As a result, finding the root causes of process variation becomes a difficult problem. This study combined data mining techniques and statistical methods to develop a solution framework for identifying the critical process parameters. This framework applied 1R algorithm to identify the clue variables, and then used correlation analysis and domain knowledge to find the to-be-controlled variables. Finally, it utilized regression analysis to set the value of the to-be-controlled variables. We validated this framework with an empirical study about the control of thickness variation for polyimide film manufacturing. Results indicated that the process yield has been improved from 41.7 % to 61 %. Moreover, we compared four versions of 1R with four versions of C4.5, and our initial results show the promise of 1R algorithm to improve the process variation.
author2 Muh-Cherng Wu
author_facet Muh-Cherng Wu
Kuan-Hsien Chiang
江冠賢
author Kuan-Hsien Chiang
江冠賢
spellingShingle Kuan-Hsien Chiang
江冠賢
A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
author_sort Kuan-Hsien Chiang
title A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
title_short A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
title_full A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
title_fullStr A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
title_full_unstemmed A Data Mining Approach to the Control of Thickness Variation for Polyimide Film Manufacturing
title_sort data mining approach to the control of thickness variation for polyimide film manufacturing
publishDate 2008
url http://ndltd.ncl.edu.tw/handle/52770366408172516744
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