Constructing Control Charts With Average Run Length Constraints
- Conference
- Location
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Salt Lake City, Utah
- Publication Date
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June 20, 2004
- Start Date
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June 20, 2004
- End Date
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June 23, 2004
- ISSN
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2153-5965
- Conference Session
- Page Count
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9
- Page Numbers
-
9.338.1 - 9.338.9
- DOI
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10.18260/1-2--13680
- Permanent URL
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https://peer.asee.org/13680
- Download Count
-
6076
Abstract
NOTE: The first page of text has been automatically extracted and included below in lieu of an abstract
Session 1465
Constructing Control Charts with Average Run Length Constraints
Robert B. Davis Miami University
Abstract
In many statistics courses for engineering majors, students learn how to construct control charts for monitoring quality levels of manufacturing processes. However, the students generally just learn how to use the standard “three-sigma” approach, where control limits are established at three standard deviations above and below the average value. Often, no details are given as to how the sample size and control limit choices ultimately determine the performance of the control chart. In this paper, we will demonstrate how with some basic knowledge of geometric, normal, and chi-square random variables, a student can learn to construct X-bar and S control charts that will have specified properties in terms of performance. In evaluating control charts, one is usually concerned with the false alarm rate (how frequently does the chart erroneously signal if the monitored process is on target?) and the detection rate (how quickly does the chart signal if the monitored process is not on target?). Using the simple tools proposed in this paper, the designer of a control chart can determine the sample size and control limits required to establish a desired false alarm rate and a desired detection rate for some specific out-of-control state. Teaching the process control material in this fashion connects the probability material learned in the early part of the course with countless real-world applications, making the probability material much more accessible and relevant to the students.
I. Introduction
In many statistics courses for engineering majors, students learn how to construct control charts for monitoring quality levels of manufacturing processes. However, the students generally just learn how to use the standard “three-sigma” approach, where control limits are established at three standard deviations above and below the average value. Often, no details are given as to how the sample size and control limit choices ultimately determine the performance of the control chart. In this paper, we will demonstrate how with some basic knowledge of geometric, normal, and chi-squared random variables, a student can learn to construct X and S control charts that will have specified properties in terms of performance. In evaluating control charts, one is usually concerned with the false alarm rate (how frequently does the chart erroneously signal if
Proceedings of the 2004 American Society for Engineering Education Annual Conference & Exposition Copyright 2004, American Society for Engineering Education
Davis, R. (2004, June), Constructing Control Charts With Average Run Length Constraints Paper presented at 2004 Annual Conference, Salt Lake City, Utah. 10.18260/1-2--13680
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