Phase II monitoring of polynomial and nonlinear profiles using a p-value approach

Azadeh Adibi; Connie M. Borror; Douglas Montgomery

doi:10.1504/IJQET.2015.071651

Phase II monitoring of polynomial and nonlinear profiles using a p-value approach

Azadeh Adibi, Connie M. Borror, Douglas Montgomery

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

In this study, a p-value-based method for monitoring polynomial and nonlinear profiles in Phase II process monitoring is proposed. Performance of the proposed method is evaluated using the average run length criterion under different shifts in the model parameters. In this approach, the p-values are calculated for all subgroups within a sample. If any p-value is less than a prespecified threshold, the chart signals out of control. The main advantage of the proposed method is its ease of implementation in practice. Moreover, in this method, only one control chart is needed for routine monitoring of the model parameters. Only if an out-of-control signal is observed, then individual monitoring of the regression model parameters is needed. Performance of the proposed approach is compared to the T² method. Results of a simulation study on the proposed p-value approach are provided.

Original language	English (US)
Pages (from-to)	101-113
Number of pages	13
Journal	International Journal of Quality Engineering and Technology
Volume	5
Issue number	2
DOIs	https://doi.org/10.1504/IJQET.2015.071651
State	Published - Jan 1 2015

Keywords

ARL
Average run length
Nonlinear model
Phase II
Polynomial model
Profile monitoring

ASJC Scopus subject areas

Safety, Risk, Reliability and Quality

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10.1504/IJQET.2015.071651

Cite this

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title = "Phase II monitoring of polynomial and nonlinear profiles using a p-value approach",

abstract = "In this study, a p-value-based method for monitoring polynomial and nonlinear profiles in Phase II process monitoring is proposed. Performance of the proposed method is evaluated using the average run length criterion under different shifts in the model parameters. In this approach, the p-values are calculated for all subgroups within a sample. If any p-value is less than a prespecified threshold, the chart signals out of control. The main advantage of the proposed method is its ease of implementation in practice. Moreover, in this method, only one control chart is needed for routine monitoring of the model parameters. Only if an out-of-control signal is observed, then individual monitoring of the regression model parameters is needed. Performance of the proposed approach is compared to the T2 method. Results of a simulation study on the proposed p-value approach are provided.",

keywords = "ARL, Average run length, Nonlinear model, Phase II, Polynomial model, Profile monitoring",

author = "Azadeh Adibi and Borror, {Connie M.} and Douglas Montgomery",

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T1 - Phase II monitoring of polynomial and nonlinear profiles using a p-value approach

AU - Adibi, Azadeh

AU - Borror, Connie M.

AU - Montgomery, Douglas

PY - 2015/1/1

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N2 - In this study, a p-value-based method for monitoring polynomial and nonlinear profiles in Phase II process monitoring is proposed. Performance of the proposed method is evaluated using the average run length criterion under different shifts in the model parameters. In this approach, the p-values are calculated for all subgroups within a sample. If any p-value is less than a prespecified threshold, the chart signals out of control. The main advantage of the proposed method is its ease of implementation in practice. Moreover, in this method, only one control chart is needed for routine monitoring of the model parameters. Only if an out-of-control signal is observed, then individual monitoring of the regression model parameters is needed. Performance of the proposed approach is compared to the T2 method. Results of a simulation study on the proposed p-value approach are provided.

AB - In this study, a p-value-based method for monitoring polynomial and nonlinear profiles in Phase II process monitoring is proposed. Performance of the proposed method is evaluated using the average run length criterion under different shifts in the model parameters. In this approach, the p-values are calculated for all subgroups within a sample. If any p-value is less than a prespecified threshold, the chart signals out of control. The main advantage of the proposed method is its ease of implementation in practice. Moreover, in this method, only one control chart is needed for routine monitoring of the model parameters. Only if an out-of-control signal is observed, then individual monitoring of the regression model parameters is needed. Performance of the proposed approach is compared to the T2 method. Results of a simulation study on the proposed p-value approach are provided.

KW - ARL

KW - Average run length

KW - Nonlinear model

KW - Phase II

KW - Polynomial model

KW - Profile monitoring

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Phase II monitoring of polynomial and nonlinear profiles using a p-value approach

Abstract

Keywords

ASJC Scopus subject areas

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