In recent years, many supplementary designs have been developed incorporating the assumption that data follow the particular non-normal distribution. The VR-control chart is one such design proposed to monitor the parameter 2 of the single parameter Rayleigh distributed data. Commonly, in authentic
situations, practitioners need to estimate the scale parameter in the observed processes instead of 2.
However, the positive square root of the VR-statistic used in the existing design of VR-control chart is not anunbiased estimator of and thus could not be practiced to monitor the scale parameter of the Rayleigh distributed process. A new structure of the VR-control chart namely VSQR for monitoring the scale parameter of the Rayleigh distributed data has been originally developed in this study. The statistical basis of this newly VSQR design in terms of average run length .ARL/, characteristic function and power curve have been derived. The analytical results are utilized further to determine the parameters of VSQR-chart and in comparing the performance of the proposed control chart with existing competitors. Comparative results illustrate the effectiveness of the proposed design in view of statistical power. Finally, the computational procedure of this newly VSQR-chart has been demonstrated using simulated data and real data on the breaking strength of carbon fibers.
History
Volume
8
Start Page
188390
End Page
188400
Number of Pages
11
eISSN
2169-3536
Publisher
Institute of Electrical and Electronics Engineers (IEEE)