Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
The Performance of the Adaptive Exponentially Weighted Moving Average Control Chart with Estimated Parameters
View through CrossRef
The adaptive exponentially weighted moving average (AEWMA) control chart has the advantage of detecting balance mixed range of mean shifts. Its performance has been studied under the assumption that the process parameters are known. Under this assumption, previous studies have shown AEWMA to provide superior statistical performance when compared with other different types of control charts. In practice, however, the process parameters are usually unknown and are required to be estimated. Using a Markov Chain approach, we show that the performance of the AEWMA control chart is affected when parameters are estimated compared with the known‐parameter case. In addition, we show the effect of different standard deviation estimators on the chart performance. Finally, a performance comparison is conducted between the exponentially weighted moving average (EWMA) chart and the AEWMA chart when the process parameters are unknown. We recommend the use of the AEWMA chart over the ordinary EWMA chart especially when a small number of Phase I samples is available to estimate the unknown parameters. Copyright © 2012 John Wiley & Sons, Ltd.
Title: The Performance of the Adaptive Exponentially Weighted Moving Average Control Chart with Estimated Parameters
Description:
The adaptive exponentially weighted moving average (AEWMA) control chart has the advantage of detecting balance mixed range of mean shifts.
Its performance has been studied under the assumption that the process parameters are known.
Under this assumption, previous studies have shown AEWMA to provide superior statistical performance when compared with other different types of control charts.
In practice, however, the process parameters are usually unknown and are required to be estimated.
Using a Markov Chain approach, we show that the performance of the AEWMA control chart is affected when parameters are estimated compared with the known‐parameter case.
In addition, we show the effect of different standard deviation estimators on the chart performance.
Finally, a performance comparison is conducted between the exponentially weighted moving average (EWMA) chart and the AEWMA chart when the process parameters are unknown.
We recommend the use of the AEWMA chart over the ordinary EWMA chart especially when a small number of Phase I samples is available to estimate the unknown parameters.
Copyright © 2012 John Wiley & Sons, Ltd.
Related Results
Enhancing Sensitivity of Nonparametric Tukey Extended EWMA-MA Charts for Effective Process Mean Monitoring
Enhancing Sensitivity of Nonparametric Tukey Extended EWMA-MA Charts for Effective Process Mean Monitoring
A control chart is a crucial statistical process control (SPC) instrument for identifying method variances that may undermine product efficacy. The combined control chart has been ...
COMPARISON OF EXPONENTIALLY WEIGHTED MOVING AVERAGE CONTROL CHART WITH HOMOGENEOUSLY WEIGHTED MOVING AVERAGE CONTROL CHARTS AND ITS APPLICATION
COMPARISON OF EXPONENTIALLY WEIGHTED MOVING AVERAGE CONTROL CHART WITH HOMOGENEOUSLY WEIGHTED MOVING AVERAGE CONTROL CHARTS AND ITS APPLICATION
The Exponentially Weighted Moving Average (EWMA) control chart is a widely used memory-type control chart known for detecting small shifts in process means. The recently developed ...
Combining a Moving Average with a Triple EWMA Chart to Improve Detection Performance
Combining a Moving Average with a Triple EWMA Chart to Improve Detection Performance
This article aims to introduce the novel mixed triple exponentially weighted moving average-moving average (MTEM) chart to accurately detect position changes for both symmetric and...
A parameter free Bayesian adaptive EWMA mean chart under different loss functions
A parameter free Bayesian adaptive EWMA mean chart under different loss functions
AbstractThe adaptive exponentially weighted moving average (AEWMA) control chart is more sensitive than the exponentially weighted moving average (EWMA) control chart for the mean ...
On the Average Run Lengths of Quality Control Schemes Using a Numerical Integral Equation Approach
On the Average Run Lengths of Quality Control Schemes Using a Numerical Integral Equation Approach
This research presents the approach of estimating the average run length (ARL) by using the numerical integral equation (NIE) approach, such as the Gaussian, Midpoint, Trapezoidal,...
New adaptive EWMA CV control chart with application to the sintering process
New adaptive EWMA CV control chart with application to the sintering process
AbstractThis research presents a new adaptive exponentially weighted moving average control chart, known as the coefficient of variation (CV) EWMA statistic to study the relative p...
An adaptive EWMA control chart for monitoring the process mean in Bayesian theory under different loss functions
An adaptive EWMA control chart for monitoring the process mean in Bayesian theory under different loss functions
AbstractThe Shewhart control chart is used for detecting the large shift and an exponentially weighted moving average (EWMA) control chart is used for detecting the small/moderate ...
To Compare Time-Weighted Graphs to Evaluate the Inclination of the Acetabular Component of Patients Who Had Total Hip Replacement Surgery
To Compare Time-Weighted Graphs to Evaluate the Inclination of the Acetabular Component of Patients Who Had Total Hip Replacement Surgery
Time-weighted graphs are used to detect small shifts in statistical process control. The aim of this study is to evaluate the inclination of the acetabular component with CUmulativ...