Things on this page are fragmentary and immature notes/thoughts of the author. Please read with your own judgement!
Complete Randomized Design (CRD)
Randomized Complete Block Design (CBD)
same RNE as CRD
Latin Square Design (LSD)
same RNE as CRD
Balanced Incomplete Block Design
all treatments cannot fit in any one block
each treatment appears the same number of times in the design
each pair of treatment appears together in the same number of blocks
BIBD does not exist for every t (number of treatments), b (number of block) and k (the number of units in each block)
inter-block comparison, intra-block information is usually sacrificed (confounded with unknown block effect)
when block effect is random, intra-block information can be recovered. There is also a neat trick for BIBD when block effect is random: do inference using block totals (not necessarily better than inter-block information only) assumptions:
Split-plot Design (SPD)
common in animal science, agriculture, engineering, chemistry, etc.
can analyze separately for whole-plot and split-plot (sub-plot) parts
there are random effects in SPD
factorial analysis:
appearance of higher interactions requires appearance of lower interactions
EFFECT HIERARCHY PRINCIPLE – If an interaction involving a given set of factors is included in the model, all main effects and interactions involving subsets of these factors should also be included. • EFFECT HEREDITY PRINCIPLE – If an interaction involving a given set of factors is included in the model, at least one effect of the next smallest order involving a subset of these factors should also be included.
some times purposely confound a factor with another (usually these factors are not of interests to us) can be smart
random and fixed effect, fixed is easy most of time,
sometimes if random is too hard (usually seen in generalized linear models), can treat as fixed
independent
distribution assumption
equal variance/dispersion
residual plot
Primary concern about model is lack of fit
Primary concern about variance is equality
Levene Test and BF test
Simultaneous confidence intervals
Scheffe (all)
Tukey (pairwise)
Dunnett (multiple vs one)
Estimation of Variance Components
REML vs ML
recursive estimating ... suppose we know variance we can estimate coefficients, and then estimate variances ... repeat ...
non-linear ... based on approximation ...