Abstract
For signalling alarms sooner when the dispersion of a multivariate process is "increased", a multivariate control chart for Phase II process monitoring is proposed as a supplementary tool to the usual monitoring schemes designed for detecting general changes in the covariance matrix. The proposed chart is constructed based on the one-sided likelihood ratio test (LRT) for testing the hypothesis that the covariance matrix of the quality characteristic vector of the current process, Sigma, is "larger" than that of the in-control process, Sigma(0), in the sense that Sigma - Sigma(0) is positive semidefinite and Sigma not equal Sigma(0). Assuming Sigma(0) is known, the LRT statistic is derived and then used to construct the control chart. A simulation study shows that the proposed control chart indeed outperforms three existing two-sided-test-based control charts under comparison in terms of the average run length. The applicability and effectiveness of the proposed control chart are demonstrated through a semiconductor example and two simulations.
Original language | English |
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Pages (from-to) | 1683-1707 |
Number of pages | 25 |
Journal | Statistica Sinica |
State | Published - Oct 2010 |
Keywords
- Average run length; likelihood ratio test; multivariate process dispersion; one-sided test; two-sided test
- ONE-SIDED TEST; PROCESS VARIABILITY; COMPONENTS; EQUALITY; CRITERIA