Description
Many products undergo several stages of testing ranging from tests on individual components to end-item tests. Additionally, these products may be further "tested" via customer or field use. The later failure of a delivered product may in some cases be due to circumstances that have no correlation with the product's inherent quality. However, at times, there may be cues in the upstream test data that, if detected, could serve to predict the likelihood of downstream failure or performance degradation induced by product use or environmental stresses. This study explores the use of downstream factory test data or product field reliability data to infer data mining or pattern recognition criteria onto manufacturing process or upstream test data by means of support vector machines (SVM) in order to provide reliability prediction models. In concert with a risk/benefit analysis, these models can be utilized to drive improvement of the product or, at least, via screening to improve the reliability of the product delivered to the customer. Such models can be used to aid in reliability risk assessment based on detectable correlations between the product test performance and the sources of supply, test stands, or other factors related to product manufacture. As an enhancement to the usefulness of the SVM or hyperplane classifier within this context, L-moments and the Western Electric Company (WECO) Rules are used to augment or replace the native process or test data used as inputs to the classifier. As part of this research, a generalizable binary classification methodology was developed that can be used to design and implement predictors of end-item field failure or downstream product performance based on upstream test data that may be composed of single-parameter, time-series, or multivariate real-valued data. Additionally, the methodology provides input parameter weighting factors that have proved useful in failure analysis and root cause investigations as indicators of which of several upstream product parameters have the greater influence on the downstream failure outcomes.
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Details
Title
- The detection of reliability prediction cues in manufacturing data from statistically controlled processes
Contributors
- Mosley, James (Author)
- Morrell, Darryl (Committee member)
- Cochran, Douglas (Committee member)
- Papandreou-Suppappola, Antonia (Committee member)
- Roberts, Chell (Committee member)
- Spanias, Andreas (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2011
Subjects
- Electrical Engineering
- Industrial Engineering
- Applied Mathematics
- Hyperplane Classifier
- L-moment Kernel
- Order statistics
- Statistical Process Control
- Support Vector Machines
- Western Electric Rules
- Support Vector Machines
- L-moments
- Manufacturing processes--Production control.
- Manufacturing processes
- Process control--Statistical methods.
Resource Type
Collections this item is in
Note
- thesisPartial requirement for: Ph. D., Arizona State University, 2011
- bibliographyIncludes bibliographical references (p. 110-113)
- Field of study: Electrical engineering
Citation and reuse
Statement of Responsibility
by James Mosley