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Phase I Analysis of Linear Profiles With Calibration Applications

Phase I Analysis of Linear Profiles With Calibration Applications. 指導教授:童超塵 作者: Mahmoud A. Mahmoud and William H. Woodall 主講人:廖莉芳. Outline. Introduction Phase I Approaches An Alternative Approach Performance Comparisons Calibration Example Conclusions. Introduction.

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Phase I Analysis of Linear Profiles With Calibration Applications

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  1. Phase I Analysis of Linear Profiles With Calibration Applications 指導教授:童超塵 作者:Mahmoud A. Mahmoud and William H. Woodall 主講人:廖莉芳

  2. Outline • Introduction • Phase I Approaches • An Alternative Approach • Performance Comparisons • Calibration Example • Conclusions

  3. Introduction • For phase I applications, one compares the competing control chart methods in terms of the probability of deciding whether or not the process is stable. • We propose a method based on using indicator variables in a multiple regression model. • We study a method for phase I analysis based on the indicator variables technique combined with a control chart for detecting changes in variation about the regression line.

  4. Introduction • We assume that k random samples from a historical data set. • For each sample, we assume that the model relating X to Y is:

  5. Phase I Approaches • Stover and Brill(1998) proposed a method for a phase I linear profile calibration process: • The method is T2 chart: However, a more appropriate UCL is:

  6. Phase I Approaches • Kang and Albin(2000) proposed two methods for monitoring of linear profiles: • The first method is T2 chart:

  7. Phase I Approaches • The second method is an R-chat to be used in conjunction with EWMA chart. • Kim et al.(2003) recommend replacing the three EWMA charts by three Shewhart charts for monitoring the Y intercept, slope, and process standard deviation.

  8. Phase I Approaches • For monitoring the B0: • For monitoring the B1: • For monitoring the σ2: (first)

  9. An Alternative Approach • We apply the global F test in conjunction with a univariate control chart to check for the stability of the variation about the regression line. • Suppose we have k samples and we need to test the identity of the regression lines.

  10. An Alternative Approach • Test the hypothesis:H0:β01=β02=…=β11=β12=…=β1k’=0H1: H0 is not true

  11. An Alternative Approach • If an out-of-control is obtained from the F test, we code the X values such that the average coded value is 0 and applying 3-sigma control charts for the Y intercept and slope separately. • For the Y intercept: • For the slope: • Test for normality • Test for linearity:lack-of-fit F test

  12. Performance Comparisons • Method A:T2 chart by Stover and Brill.Method B:T2 chart by Kang and Albin. Method C:3 Shewhart by Kim et al.Method D:F-test in conjunction with control limit in (15) • For k=20 and underlying in-control model with Yij=Xi+εij, i=1,2,…,n X=0, 0.2, 0.4, 0.6, 0.8,…, 1.8n=10, x-bar=0.9, Sxx=3.3 • For k=20, we considered fixed shifts in m out of k individual model parameters for m=2, 5, and10.

  13. 0.4 0.2 0.18 0.02

  14. Calibration Example • The purposewas to study the stability of the calibration curve in the photometric determination of Fe3+ with sulfosalicylic acid. • We have some diagnostics to check for the normality assumption and linearity of X and Y for each of the samples. • These suggested the reasonableness of the normality assumption of error terms.

  15. Calibration Example • Use the lack-of-fit test for linearity. median max min

  16. Calibration Example • Using a principal components analysis to identity the primary patterns of variation among the 22 calibration curves.

  17. Calibration Example

  18. Calibration Example • For method D, the control chart for monitoring the process variance is exactly the same as that of Figure 10. • LCL=0.0911 and UCL=3.66316 • F=75.8019, p-value=0 => reject H0 • We code X values and then applied separated 3-sigma control charts for intercept and slope. • For intercept, LCL=202.99 and UCL=205.4 • Only sample 19 is in control. • For slope, LCL=2.03 and UCL=2.064 • All samples are in control.

  19. Conclusions • Method D is much more effective than the other methods in detecting shifts affecting much of phase I data. • For shifts for the slope and Y intercept affecting only a few samples of the phase I data, the method B and C both gave better results. • For shifts in the process standard deviation, method C is much more interpretable than method B. • We recommend using either method D or method C.

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