In Measurement System Analysis a relevant issue is how to find confidence intervals for the parameters used to evaluate the capability of a gauge. In literature approximate solutions are available but they produce so wide intervals that they are often not effective in the decision process. In this article we introduce a new approach and, with particular reference to the parameter γR, i.e., the ratio of the variance due to the process and the variance due to the instrument, we show that, under quite realistic assumptions, we obtain confidence intervals narrower than other methods. An application to a real microelectronic case study is reported.
Deldossi, L., Zappa, D., Confidence intervals for variance components in Measurement System Capability studies, <<COMMUNICATIONS IN STATISTICS. THEORY AND METHODS>>, 2012; (41): 2932-2943. [doi:10.1080/03610926.2011.589956] [http://hdl.handle.net/10807/22352]
Confidence intervals for variance components in Measurement System Capability studies
Deldossi, Laura;Zappa, Diego
2012
Abstract
In Measurement System Analysis a relevant issue is how to find confidence intervals for the parameters used to evaluate the capability of a gauge. In literature approximate solutions are available but they produce so wide intervals that they are often not effective in the decision process. In this article we introduce a new approach and, with particular reference to the parameter γR, i.e., the ratio of the variance due to the process and the variance due to the instrument, we show that, under quite realistic assumptions, we obtain confidence intervals narrower than other methods. An application to a real microelectronic case study is reported.
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