Abstract

Cumulative sum control charts that are based on the estimated control limits are extensively used in practice. Such control limits are often characterized by a Phase I estimation error. The presence of these errors can cause a change in the location and/or width of control limits resulting in a deprived performance of the control chart. In this study, we introduce a non-parametric Tukey’s outlier detection model in the design structure of a two-sided cumulative sum (CUSUM) chart with estimated parameters for process monitoring. Using Monte Carlo simulations, we studied the estimation effect on the performance of the CUSUM chart in terms of the average run length and the standard deviation of the run length. We found the new design structure is more stable in the presence of outliers and requires fewer amounts of Phase I observations to stabilize the run-length performance. Finally, a numerical example and practical application of the proposed scheme are demonstrated using a dataset from healthcare surveillance where received signal strength of individuals’ movement is the variable of interest. The implementation of classical CUSUM shows that a shift detection in Phase II that received signal strength data is indeed masked/delayed if there are outliers in Phase I data. On the contrary, the proposed chart omits the Phase I outliers and gives a timely signal in Phase II.

Highlights

  • The cumulative sum (CUSUM) control chart is an effective monitoring tool widely used in industries and medical processes for quality improvement [1]

  • Table 3) that were higher than the known standard values in Table 2, for a fixed ARL0 = 200

  • Parameter estimation had a more adverse impact on the performance of a two-sided CUSUM chart based on smaller reference value k and designed for quick detection of very small changes in the process mean

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Summary

Introduction

The cumulative sum (CUSUM) control chart is an effective monitoring tool widely used in industries and medical processes for quality improvement [1]. We study the effect of outliers on the performance of a two-sided CUSUM control chart for monitoring process location with the estimated parameters using the run length (RL) properties. The study proposed a non-parametric outlier detector, the robust Tukey outlier detection model in the design structure of a CUSUM control chart for efficient monitoring of the process location parameters in the presence of the extremes. These measures are evaluated in three cases.

Overview of CUSUM Charts with Estimated Parameters
Variability in the CUSUM Chart Performance
Effect of Estimation on the Two-Sided CUSUM Chart Performance
Effect of Estimation on Two-Sided CUSUM Control Limits
Effect of Estimation on Two-Sided
The Outliers and CUSUM Chart with Estimated Parameters
Performance of the Tukey CUSUM Control Chart
Performance
Probability
11. Phase-I subgroups of RSS
Conclusions

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