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Stat 470-3 Today: Will consider the one-way ANOVA model for comparing means of several treatments – PowerPoint PPT presentation

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Title: Stat 470-3


1
Stat 470-3
  • Today Will consider the one-way ANOVA model for
    comparing means of several treatments

2
Example
  • Issue shelf-life of pre-packaged meat
  • Objective Compare four different packaging
    methods. Are there differences? Which packaging
    is best?
  • T1. commercial plastic wrap
  • T2. vacuum package
  • T3. 1CO, 40O2, 59N
  • T4. 100 CO2
  • Factor Packaging
  • Experimental units 12 steaks
  • Experimental Design randomly assign 3 steaks to
    each packaging condition balanced completely
    randomized design with a 4, n 3
  • Response count of bacteria after 9 days at 4oC
    (39oF)
  • y log(bacteria count/cm2)

3
DataAnalysis 1 Plot the Data
Notation k 4 Treatments ni 3 reps per
Treatment N 12 total observations
Eyeball Analysis Does it look like all of these
data could come from the same distribution? Or
from four different distributions?
4
Experiments with a Single Factor Completely
Random Design
  • Objective
  • Determine if the mean response of a factor is the
    same at all levels
  • If there is a difference, which levels differ?
  • Method
  • Have a single factors with k levels
  • N experimental units available for the experiment
  • N n1 n2nk
  • Randomly assign treatments to different
    experimental units
  • Conduct experiment
  • Results yij, i1,,k j1,,ni

5
Experiments with a Single Factor Completely
Random Design
  • Model

6
Sums of Squares
7
Test Statistic
8
ANOVA Table
9
Summary
  • We have found a statistic (F) which
  • compares the variance among treatment means to
    the variance within treatments
  • has a known distribution when all the treatment
    means are equal
  • By comparing this F statistic to the F(k-1, N-k)
    distribution, we evaluate the strength of the
    evidence against the assumption of equal
    underlying treatment means

10
Back to the Example
11
Back to the Example
  • Interpretation

12
Comment
  • When a 2 (two treatments), F for testing for no
    difference among treatments is equal to t2 in the
    two-sample (unpaired) t-test
  • Out-of-Class Exercise.
  • Demonstrate this equality by doing an ANOVA on
    the data in tomato plant problem.
  • Compare percentiles in F and t tableswhat do you
    observe?
  • For the mathematically inclined, demonstrate this
    equality algebraically

13
NOTE It All Adds Up!
  • It can be shown algebraically that
  • Total SS Treatment SS Error SS
  • Also, the degrees of freedom add up
  • N-1 (k-1) (N-k)

14
Exercise Out-of-Class
  • By using the formulas in the ANOVA table, verify
    the above ANOVA table for the meat packaging data

15
Estimation of Model Parameters Constraints
  • The model is over-parameterized
  • Have k types of observation
  • Have (k1) parameters in the model
  • k for the treatment effects
  • 1 for the grand mean
  • Need to impose constraints to get solution

16
Constraints
  • Sum to Zero Constraint
  • Interpretation

17
Constraints
  • Baseline Constraint
  • Interpretation

18
Multiple Comparisons
  • In previous example, we saw that there was a
    significant treatment effectso what?
  • If an ANOVA is conducted and the analysis
    suggests that there is a significant treatment
    effect, then a reasonable question to ask is

19
Multiple Comparisons
  • Would like to see if there is a difference
    between treatments i and j
  • Can use two-sample t-test statistic to do this
  • For testing
    reject if
  • Perform many of these tests

20
Multiple Comparisons
  • Perform many of these tests
  • Error rate must be controlled

21
Tukey Method
  • Tests
  • Confidence Interval

22
Back to Example
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