design of engineering experiments part 10 – nested and split-plot designs
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Design of Engineering Experiments Part 10 – Nested and Split-Plot Designs. Text reference, Chapter 14, Pg. 525 These are multifactor experiments that have some important industrial applications - PowerPoint PPT PresentationTRANSCRIPT
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Design of Engineering Experiments Part 10 – Nested and Split-Plot Designs
• Text reference, Chapter 14, Pg. 525• These are multifactor experiments that have some
important industrial applications• Nested and split-plot designs frequently involve one
or more random factors, so the methodology of Chapter 13 (expected mean squares, variance components) is important
• There are many variations of these designs – we consider only some basic situations
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Two-Stage Nested Design• Section 14-1 (pg. 525) • In a nested design, the levels of one factor (B) is
similar to but not identical to each other at different levels of another factor (A)
• Consider a company that purchases material from three suppliers– The material comes in batches– Is the purity of the material uniform?
• Experimental design – Select four batches at random from each supplier– Make three purity determinations from each batch
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Two-Stage Nested Design
Figure 14-1
Figure 14-2
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Two-Stage Nested DesignStatistical Model and ANOVA
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Table 14-1
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Two-Stage Nested Design
Minitab balanced ANOVA will analyze nested designs
Table 14-2
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Two-Stage Nested DesignExample 14-1 (pg. 528)
Three suppliers, four batches (selected randomly) from each supplier, three samples of material taken (at random) from each batch
Response: purity of raw materials
Objective: determine the source of variability in purity
Data is coded
Mixed model, assume restricted form
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Table 14-3
Table 14-4 14-1
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Minitab Analysis –Table 14-6 Page 530Factor Type Levels Values
Supplier fixed 3 1 2 3
Batch(Supplier) random 4 1 2 3 4
Analysis of Variance for purity
Source DF SS MS F P
Supplier 2 15.056 7.528 0.97 0.416
Batch(Supplier) 9 69.917 7.769 2.94 0.017
Error 24 63.333 2.639
Total 35 148.306
Source Variance Error Expected Mean Square for Each Term
component term (using restricted model)
1 Supplier 2 (3) + 3(2) + 12Q[1]
2 Batch(Supplier) 1.710 3 (3) + 3(2)
3 Error 2.639 (3)
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Practical Interpretation – Example 14-1
• There is no difference in purity among suppliers, but significant difference in purity among batches (within suppliers)
• What are the practical implications of this conclusion?
• Estimation of variance components and diagnostic checking
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Practical Interpretation – Example 14-1
• Examine residual plots • Plot of residuals versus supplier is very important
(why?)
Figure 14-3 Residual plots for Example 14-1.
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Practical Interpretation – Example 14-1
• What if we had incorrectly analyzed this experiment as a factorial?
• Batches differ significantly• Batches x suppliers is significant. How to
explain?
Table 14-5 Incorrect Analysis of the Two-Stage Nested Design in Example 14-1 as a Factorial (Suppliers Fixed, Batches Random)
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Variations of the Nested Design
• Staggered nested designs (unbalanced)– Prevents too many degrees of freedom from
building up at lower levels
Figure 14-4
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General m-Stage Nested Design
• Several levels of nesting• Example of alloy formulations
– This experiment has three stages of nesting– Heats are usually different for different alloy – nested– Ingots formed using each heat are not same - nested
Figure 14-5
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The Model for a Three-Stage Nested Design
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Table 14-7
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The Model for a Three-Stage Nested Design
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The Foundry Example for a Three-Stage Nested Design
Overall variability in hardness = var. due to alloy formation+ var. due to heats+ var. due to hardness test error
Figure 14-6