In quality control, multi-vari charts are a visual way of presenting variability through a series of charts. The content and format of the charts has evolved over time.

Original concept

Multi-vari charts were first described by Leonard Seder in 1950,[1][2] though they were developed independently by multiple sources. They were inspired by the stock market candlestick charts or open-high-low-close charts.[3]

As originally conceived, the multi-vari chart resembles a Shewhart individuals control chart with the following differences:

  • The quality characteristic of interest is measured at two extremes (around its diameter, along its length, or across its surface) and these measurements are plotted as vertical lines connecting the minimum and maximum values over time.
  • The quality characteristic of interest is plotted across three horizontal panels that represent:
  • Variability on a single piece
  • Piece-to-piece variability
  • Time-to-time variability

The three panels are interpreted as follows:[4]

PanelConditionCorrective action
Variability on a single pieceLengths of the vertical lines (i.e., the range) exceed one-half the specifications (or more)Repair or realignment of tool
Piece-to-piece variabilityExcessive scatterExamine process inputs for excessive variability—lengths of the vertical lines are estimates of process capability
Time-to-time variabilityAppearance of a non-stationary processExamine process inputs or steps for evidence of shifts or drifts

Recent usage

More recently, the term "multi-vari chart" has been used to describe a visual way to display analysis of variance data (typically be expressed in tabular format).[5] It consists of a series of panels which portray minimum, mean, and maximum responses for each treatment combination of interest rather than for periods of time.

Because it is a two-dimensional representation of multiple dimensions (one for each factor in the ANOVA), the multi-vari chart is only useful for comparing the variability among at most four factors.

The chart consists of the following:

  • One horizontal panel for each level of the outermost factor
  • One cluster of points representing the minimum, mean, and maximum responses for the particular treatment combination, connected by lines for each level of the innermost factor
  • In the case of four factors, vertical panels for each level of the next-innermost factor
  • As with control charts, the vertical axis depicts the quality characteristic of interest (or experimental response)

References

  1. Seder, Leonard (1950), "Diagnosis with Diagrams—Part I", Industrial Quality Control, New York, New York: American Society for Quality Control, vol. 7, no. 1, pp. 11–19
  2. Seder, Leonard (1950), "Diagnosis with Diagrams—Part II", Industrial Quality Control, New York, New York: American Society for Quality Control, vol. 7, no. 2, pp. 7–11
  3. Juran, Joseph M. (1962), Quality Control Handbook (2 ed.), New York, New York: McGraw-Hill, pp. 11–30
  4. Juran, Joseph M. (1962), Quality Control Handbook (2 ed.), New York, New York: McGraw-Hill, pp. 11–30–11–31
  5. Tague, Nancy R. (1995), The Quality Toolbox (2 ed.), Milwaukee, Wisconsin: American Society for Quality Control, pp. 356–359
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