Upload
curtis-mclaughlin
View
240
Download
3
Tags:
Embed Size (px)
Citation preview
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
1
Factorial Experiments
• Text reference, Chapter 5• General principles of factorial experiments• The two-factor factorial with fixed effects• The ANOVA for factorials• Extensions to more than two factors• Quantitative and qualitative factors –
response curves and surfaces
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
2
Some Basic Definitions
Definition of a factor effect: The change in the mean response when the factor is changed from low to high
40 52 20 3021
2 230 52 20 40
112 2
52 20 30 401
2 2
A A
B B
A y y
B y y
AB
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
3
The Case of Interaction:
50 12 20 401
2 240 12 20 50
92 2
12 20 40 5029
2 2
A A
B B
A y y
B y y
AB
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
4
Regression Model & The Associated Response Surface
0 1 1 2 2 12 1 2
1 2 1 2 1 2
The least squares fit is
ˆ 35.5 10.5 5.5 0.5 35.5 10.5 5.5
y x x x x
y x x x x x x
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
5
The Effect of Interaction on the Response Surface
Suppose that we add an interaction term to the model:
1 2 1 2ˆ 35.5 10.5 5.5 8y x x x x
Interaction is actually a form of curvature
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
6
Example 5.1 The Battery Life ExperimentText reference pg. 167
A = Material type; B = Temperature (A quantitative variable)
1. What effects do material type & temperature have on life?
2. Is there a choice of material that would give long life regardless of temperature (a robust product)?
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
7
The General Two-Factor Factorial Experiment
a levels of factor A; b levels of factor B; n replicates
This is a completely randomized design
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
8
Statistical (effects) model:
1,2,...,
( ) 1,2,...,
1, 2,...,ijk i j ij ijk
i a
y j b
k n
Other models (means model, regression models) can be useful
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
9
Extension of the ANOVA to Factorials (Fixed Effects Case) – pg. 168
2 2 2... .. ... . . ...
1 1 1 1 1
2 2. .. . . ... .
1 1 1 1 1
( ) ( ) ( )
( ) ( )
a b n a b
ijk i ji j k i j
a b a b n
ij i j ijk iji j i j k
y y bn y y an y y
n y y y y y y
breakdown:
1 1 1 ( 1)( 1) ( 1)
T A B AB ESS SS SS SS SS
df
abn a b a b ab n
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
10
ANOVA Table – Fixed Effects Case
Design-Expert will perform the computations
Text gives details of manual computing (ugh!) – see pp. 171
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
11
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
12
Design-Expert Output – Example 5.1
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
13
JMP output – Example 5.1
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
14
Residual Analysis – Example 5.1
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
15
Residual Analysis – Example 5.1
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
16
Interaction Plot DESIGN-EXPERT Plot
Life
X = B: TemperatureY = A: Material
A1 A1A2 A2A3 A3
A: MaterialInteraction Graph
Life
B: Temperature
15 70 125
20
62
104
146
188
2
2
22
2
2
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
17
Quantitative and Qualitative Factors
• The basic ANOVA procedure treats every factor as if it were qualitative
• Sometimes an experiment will involve both quantitative and qualitative factors, such as in Example 5.1
• This can be accounted for in the analysis to produce regression models for the quantitative factors at each level (or combination of levels) of the qualitative factors
• These response curves and/or response surfaces are often a considerable aid in practical interpretation of the results
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
18
Quantitative and Qualitative Factors
Candidate model terms from Design- Expert: Intercept
A B B2
AB B3
AB2
A = Material type
B = Linear effect of Temperature
B2 = Quadratic effect of Temperature
AB = Material type – TempLinear
AB2 = Material type - TempQuad
B3 = Cubic effect of Temperature (Aliased)
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
19
Quantitative and Qualitative Factors
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
20
Regression Model Summary of Results
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
21
Regression Model Summary of Results
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
22
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
23
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
24
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
25
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
26
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
27
Chapter 5 Design & Analysis of Experiments 7E 2009 Montgomery
28
Factorials with More Than Two Factors
• Basic procedure is similar to the two-factor case; all abc…kn treatment combinations are run in random order
• ANOVA identity is also similar:
• Complete three-factor example in text, Example 5.5
T A B AB AC
ABC AB K E
SS SS SS SS SS
SS SS SS