Quality chain design and optimization by multiple response surface methodology

被引:0
作者
Taha Hossein Hejazi
Mirmehdi Seyyed-Esfahani
Masoud Mahootchi
机构
[1] Amirkabir University of Technology (Tehran Polytechnic),Department of Industrial Engineering and Management Systems
来源
The International Journal of Advanced Manufacturing Technology | 2013年 / 68卷
关键词
Quality engineering; Design of experiments; Statistical modeling; Mathematical programming; Multiresponse optimization;
D O I
暂无
中图分类号
学科分类号
摘要
To maintain optimal quality characteristics in the defined specification limits is a vital decision for any industry and service system. To avoid nonconformity in outputs, the stream of variations and their potential causes must be identified so that the response variables fall into desirable limits across the manufacturing or service chain. Response surface methodology is considered as a powerful technique to facilitate the analysis of the mentioned problem. This paper presents the general quality chain design problem as a mathematical program and also proposes a method to solve it using multiple response surface methodology. An example of multistage processes is analyzed by the proposed approach to show its efficacies numerically and analytically.
引用
收藏
页码:881 / 893
页数:12
相关论文
共 107 条
[1]  
Shi J(2009)Quality control and improvement for multistage systems: a survey IIE Trans 41 744-753
[2]  
Zhou S(2008)Process yield improvement through optimum design of fixture layouts in 3D multistation assembly systems J Manuf Sci Eng 130 0610051-06100517
[3]  
Phoomboplab T(2007)Stream-of-variation (SOVA) modeling—part II: a generic 3D variation model for rigid body assembly in multistation assembly processes J Manuf Sci Eng 129 832-842
[4]  
Ceglarek D(2009)Quality-assured setup planning based on the stream-of-variation model for multi-stage machining processes IIE Trans 41 323-334
[5]  
Huang W(2007)Inferring the interactions in complex manufacturing processes using graphical models Technometrics 49 373-381
[6]  
Lin J(2007)Knowledge discovery from observational data for process control using causal Bayesian networks IIE Trans 39 681-690
[7]  
Kong Z(2008)A change point approach for phase I analysis in multistage processes Technometrics 50 344-356
[8]  
Ceglarek D(2008)Directional MEWMA schemes for multistage process monitoring and diagnosis J Qual Tech 40 407-427
[9]  
Liu J(2008)Statistical monitoring of multi-stage processes based on engineering models IIE Trans 40 957-970
[10]  
Shi J(2009)False discovery rate-adjusted charting schemes for multistage process monitoring and fault identification Technometrics 51 186-205
12345678910