Design for Six Sigma Statistics, Chapter 5 - Assessing Measurement Systems
Here is a chapter from Design for Six Sigma Statistics, written by a Six Sigma practitioner with more than two decades of DFSS experience who provides a detailed, goal-focused roadmap. It shows you how to execute advanced mathematical procedures specifically aimed at implementing, fine-tuning, or maximizing DFSS projects to yield optimal results. For virtually every instance and situation, you are shown how to select and use appropriate mathematical methods to meet the challenges of today's engineering design for quality.
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52 Assessing Measurement System Precision Using Gage RR Studies
53 Assessing Attribute Measurement Systems
accepted reference value accuracy and precision Analyze ANOVA Assessing Measurement System attribute agreement analysis attribute Gage R&R attribute measurement system average measurements Black Belts calculate capability study Chart by Appraiser column Components of Variation confidence interval control chart control limits Date of study estimate evaluation example Figure flow chart follow-up MSAs Gage R&R study gage study Gene Gene’s GRR%Cont GRR%Tol GRR%TV inspection inspector interaction lists measurement process measurement system error measurement system precision Measurement Systems Analysis misclassified nk(r normal distribution number of replications Oscar Paul PartID perform the measurements preproduction MSA problem procedure radiographs random order ratio of uncertainty Reproducibility root beer selected sample Six Sigma standard deviation system is acceptable Table Taster tasting panel Ted’s test stand tolerance limit tolerance width Total Gage R&R total variation true value urement system valve variable measurement system variation component metrics weld Weldon Xbar chart