A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance
This article compares the effectiveness and robustness of nine typical control charts for monitoring both process mean and variance, including the most effective optimal and adaptive sequential probability ratio test (SPRT) charts. The nine charts are categorized into three types (the X type, CUSUM...
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sg-ntu-dr.10356-979852020-03-07T12:15:51Z A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance Khoo, Michael B. C. Ou, Yanjing Wen, Di Wu, Zhang School of Mechanical and Aerospace Engineering Wee Kim Wee School of Communication and Information This article compares the effectiveness and robustness of nine typical control charts for monitoring both process mean and variance, including the most effective optimal and adaptive sequential probability ratio test (SPRT) charts. The nine charts are categorized into three types (the X type, CUSUM type and SPRT type) and three versions (the basic version, optimal version and adaptive version). While the charting parameters of the basic charts are determined by common wisdoms, the parameters of the optimal and adaptive charts are designed optimally in order to minimize an index average extra quadratic loss for the best overall performance. Moreover, the probability distributions of the mean shift δµ and standard deviation shift δσ are studied explicitly as the influential factors in a factorial experiment. The main findings obtained in this study include: (1) From an overall viewpoint, the SPRT-type chart is more effective than the CUSUM-type chart and X type chart by 15 and 73%, respectively; (2) in general, the adaptive chart outperforms the optimal chart and basic chart by 16 and 97%, respectively; (3) the optimal CUSUM chart is the most effective fixed sample size and sampling interval chart and the optimal SPRT chart is the best choice among the adaptive charts; and (4) the optimal sample sizes of both the X charts and the CUSUM charts are always equal to one. Furthermore, this article provides several design tables which contain the optimal parameter values and performance indices of 54 charts under different specifications. 2013-07-25T07:55:08Z 2019-12-06T19:49:04Z 2013-07-25T07:55:08Z 2019-12-06T19:49:04Z 2011 2011 Journal Article Ou, Y., Wen, D., Wu, Z., & Khoo, M. B. C. (2012). A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance. Quality and Reliability Engineering International, 28(1), 3-17. 0748-8017 https://hdl.handle.net/10356/97985 http://hdl.handle.net/10220/12293 10.1002/qre.1208 en Quality and reliability engineering international © 2011 John Wiley & Sons, Ltd. |
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This article compares the effectiveness and robustness of nine typical control charts for monitoring both process mean and variance, including the most effective optimal and adaptive sequential probability ratio test (SPRT) charts. The nine charts are categorized into three types (the X type, CUSUM type and SPRT type) and three versions (the basic version, optimal version and adaptive version). While the charting parameters of the basic charts are determined by common wisdoms, the parameters of the optimal and adaptive charts are designed optimally in order to minimize an index average extra quadratic loss for the best overall performance. Moreover, the probability distributions of the mean shift δµ and standard deviation shift δσ are studied explicitly as the influential factors in a factorial experiment. The main findings obtained in this study include: (1) From an overall viewpoint, the SPRT-type chart is more effective than the CUSUM-type chart and X type chart by 15 and 73%, respectively; (2) in general, the adaptive chart outperforms the optimal chart and basic chart by 16 and 97%, respectively; (3) the optimal CUSUM chart is the most effective fixed sample size and sampling interval chart and the optimal SPRT chart is the best choice among the adaptive charts; and (4) the optimal sample sizes of both the X charts and the CUSUM charts are always equal to one. Furthermore, this article provides several design tables which contain the optimal parameter values and performance indices of 54 charts under different specifications. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Khoo, Michael B. C. Ou, Yanjing Wen, Di Wu, Zhang |
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Khoo, Michael B. C. Ou, Yanjing Wen, Di Wu, Zhang |
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Khoo, Michael B. C. Ou, Yanjing Wen, Di Wu, Zhang A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
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Khoo, Michael B. C. |
title |
A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
title_short |
A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
title_full |
A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
title_fullStr |
A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
title_full_unstemmed |
A comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
title_sort |
comparison study on effectiveness and robustness of control charts for monitoring process mean and variance |
publishDate |
2013 |
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https://hdl.handle.net/10356/97985 http://hdl.handle.net/10220/12293 |
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1681038812059271168 |