Paul L. Goethals scite author profile

Within an industrial manufacturing environment, Process Capability Indices (PCIs) enable engineers to assess the process performance and ultimately improve the product quality. Despite the fact that most industrial products manufactured today possess multiple quality characteristics, the vast majority of the literature within this area primarily focuses on univariate measures to assess process capability. One particular univariate index, C pm , is widely used to account for deviations between the location of the process mean and the target value of a process. While some researchers have sought to develop multivariate analogues of C pm , modeling the loss in quality associated with multiple quality characteristics continues to remain a challenge. This paper proposes a multivariate PCI that more appropriately estimates quality loss, while offering greater flexibility in conforming to various industrial applications, and maintaining a more realistic approach to assessing process capability.

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Solving the optimal process target problem using response surface designs in heteroscedastic conditions

Goethals

Cho

2011

International Journal of Production Research

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Evaluating mail‐based security for electoral processes using attack trees

et al. 2022

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Since the reports of Russian interference in the 2016 United States General Election, the security of voting processes has received increased attention from both state and federal authorities. The declaration by the US Department of Homeland Security in January 2017 that election systems be classified as the 17th component of critical infrastructure is just the beginning of a need for more secure voting processes. More recently, the COVID‐19 pandemic and the 2020 US General Election have placed greater emphasis specifically on mail‐based voting processes for electoral systems. The objective of this research is to provide greater insight into potential threats to mail‐based voting processes. Upon identifying an attack tree as an initial structure for evaluation, new threats are postulated, and an updated tree is proposed that accounts for more recent activities. Then, using an established assessment framework, the relative likelihood of each mail‐based voting process attack scenario is identified. The results facilitate providing election officials and policymakers with greater knowledge of how mail‐based voting system vulnerabilities develop as well as specific security measures that may be most beneficial.

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Paul L. Goethals

Verrucous squamous carcinoma of the oral cavity

Extending the desirability function to account for variability measures in univariate and multivariate response experiments

The development of a target‐focused process capability index with multiple characteristics

Solving the optimal process target problem using response surface designs in heteroscedastic conditions

Evaluating mail‐based security for electoral processes using attack trees

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