Performance of Multivariate Process Capability Indices Under Normal and Non‐Normal Distributions

Dianda, Daniela Fernanda; Quaglino, Marta Beatriz; Pagura, José Alberto

doi:10.1002/qre.1939

Cited by 10 publications

(12 citation statements)

References 14 publications

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“…Table presents the probabilities of correctly identifying the state of the process, computed considering the value Φ p ; 0.0027 = 0.9973 ∀ p = 2, 3, 5 as the cutoff point. In the study of sensitivity and specificity carried out by Dianda et al , the index Mp 2 was found specific but not always sensitive, unless the anomaly in the process is very noticeable. When the index is computed from sampling information, the true value of the index is underestimated and so the index losses specificity.…”

Section: Resultsmentioning

confidence: 94%

“…Specificity of this index could be affected because of the bias of its estimator. However, the ability of the estimator to correctly detect processes that meet specifications is not affected as the index is overvalued under this type of heavy‐tailed distributions . The magnitudes of the bias are not great enough to cancel out the overvaluation that the departure from normality causes in the index.…”

Section: Resultsmentioning

confidence: 99%

“…Table shows the probability that the estimator properly detects the true process capability state, computed from the empirical distributions and the cutoff points defined by Dianda et al detailed also in this table. From these results, it can be seen that in some situations the index losses its population properties of specificity and sensitivity.…”

Section: Resultsmentioning

confidence: 99%

“…In the same way, the index was found not sensitive for processes more spread than allowed. 13 Although one might expect that the negative bias corrects this problem, this does not happen. Again, the magnitudes of bias are not great enough to compensate the overvaluation.…”

Section: Design Of the Simulation Studymentioning

confidence: 99%

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Distributional Properties of Multivariate Process Capability Indices under Normal and Non-normal Distributions

Dianda

Quaglino

Pagura

2016

Qual. Reliab. Engng. Int.

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Multivariate capability analysis has been the focus of study in recent years, during which many authors have proposed different multivariate capability indices. In the operative context, capability indices are used as measures of the ability of the process to operate according to specifications. Because the numerical value of the index is used to conclude about the capability of the process, it is essential to bear in mind that almost always that value is obtained from a sample of process units. Therefore, it is really necessary to know the properties that the indices have when they are calculated on sampling information, in order to assess the goodness of the inferences made from them. In this work, we conduct a simulation study to investigate distributional properties of two existing indices: NMCpm index based on ratio of volumes and Mp2 index based on principal component analysis. We analyze the relative bias and the mean square error of the estimators of the indices, and we also obtain their empirical distributions that are used to estimate the probability that the indices classify correctly a process as capable or as incapable. The results allow us to recommend the use of one of these indices, as it has shown better properties. Copyright © 2016 John Wiley & Sons, Ltd.

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Section: Resultsmentioning

confidence: 94%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Design Of the Simulation Studymentioning

confidence: 99%

See 2 more Smart Citations

Distributional Properties of Multivariate Process Capability Indices under Normal and Non-normal Distributions

Dianda

Quaglino

Pagura

2016

Qual. Reliab. Engng. Int.

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“…As we have seen, authors that suggest using the PCA method to transform the original variance-covariance matrices, which describe the original PR, into a diagonal and uncorrelated-matrix are dealing with eliminating the correlation between the measured product characteristics. With this approach, the whole problem is moved to a new system of coordinate axes dened by the eigenvectors [70]. Once the product characteristics are uncorrelated, these authors suggest combining univariate PCIs to calculate the capability of each direction described by each eigenvector.…”

Section: Discussion: Multivariate Pcismentioning

confidence: 99%

A review of univariate and multivariate process capability indices

de-Felipe

Benedito

2017

Int J Adv Manuf Technol

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This paper oers a review of univariate and multivariate Process Capability Indices (PCIs). PCIs are used in the industry to quantify how well a process can meet customer requirements. Univariate PCIs describe the capability of one single product characteristic. Multivariate PCIs deal with the multivariate case in which the measures of all multiple product characteristics must be within specication limits to be conforming. When analyzing the capability of processes, decision makers of the industry may choose one PCI among all the PCIs existing in the literature, depending on dierent capability criteria. The aim of the review is to describe, cluster and discuss univariate and multivariate PCIs. This review may help researchers and decision makers to identify univariate and multivariate PCIs that can be used when monitoring univariate and multivariate production processes. On the one hand, the authors of this article suggest using PCIs obtained through the alternative denition for the C pk index when analyzing the capability of production processes, in which the estimation of the proportion of nonconforming parts is rated as crucial. On the other hand, all other multivariate PCIs presented in the literature can be applicable in capability analysis of production processes in which a direct relation to the proportion of nonconforming parts is not needed.

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On properties of probability‐based multivariate process capability indices

Khadse¹,

Khadse

2020

Quality & Reliability Eng

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Multivariate process capability indices (MPCIs) have been proposed to measure multivariate process capability in real‐world application over the past three decades. For the practitioner's point of view, the intention of this paper is to examine the performances and distributional properties of probability‐based MPCIs. Considering issues of construction of capability indices in multivariate setup and computation with performance, we found that probability‐based MPCIs are a proper generalization of univariate basic process capability indices (PCIs). In the beginning of this decade, computation of probability‐based indices was a difficult and time‐consuming task, but in the computer age statistics, computation of probability‐based MPCIs is simple and quick. Recent work on the performance of MPCI NMCpm and distributional properties of its estimator reasonably recommended this index, for use in practical situations. To study distributional properties of natural estimators of probability‐based MPCIs and recommended index estimator, we conducted simulation study. Though natural estimators of probability‐based indices are negatively biased, they are better with respect to mean, relative bias, mean square error. Probability‐based MPCI MCpm is better as compared with NMCpm with respect to performance and as its estimator quality. Hence, in real‐world practice, we recommend probability‐based MPCIs as a multivariate analogue of basic PCIs.

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Performance of Multivariate Process Capability Indices Under Normal and Non‐Normal Distributions

Cited by 10 publications

References 14 publications

Distributional Properties of Multivariate Process Capability Indices under Normal and Non-normal Distributions

Distributional Properties of Multivariate Process Capability Indices under Normal and Non-normal Distributions

A review of univariate and multivariate process capability indices

On properties of probability‐based multivariate process capability indices

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