The exact model type that you choose depends on how the data was collected. For example, are the operators measuring the same parts (in which case you have a crossed design) or are they measuring different parts (in which case you have a nested design)? To illustrate, in a model where B is nested within A, multiple measurements are nested within both B and A, and there are na•nb•nw measurements, as follows:
• na random effects are due to A
• na•nb random effects due to each nb B levels within A
• na•nb•nw random effects due to each nw levels within B within A:
.
The Zs are the random effects for each level of the classification. Each Z is assumed to have a mean of zero and to be independent from all other random terms. The variance of the response y is the sum of the variances due to each z component:
.
Table 5.3 shows the supported models and what the effects in the model would be.
Model | Factors | Effects in the Model |
---|---|---|
Main Effects | 1 2 unlimited | A A, B and so on, for more factors |
Crossed | 1 2 3 4 unlimited | A A, B, A*B A, B, A*B, C, A*C, B*C, A*B*C A, B, A*B, C, A*C, B*C, A*B*C, D, A*D, B*D, A*B*D, C*D, A*C*D, B*C*D, A*B*C*D, and so on, for more factors |
Nested | 1 2 3 4 unlimited | A A, B(A) A, B(A), C(A,B) A, B(A), C(A,B), D(A,B,C) and so on, for more factors |
Crossed then Nested | 3 | A, B, A*B, C(A,B) |
Nested then Crossed | 3 | A, B(A), C, A*C, C*B(A) |