Completely randomized design: Definition from Answers.com

In the design of experiments, completely randomized designs are for studying the effects of one primary factor without the need to take other nuisance variables into account. This article describes completely randomized designs that have one primary factor. The experiment compares the values of a response variable based on the different levels of that primary factor. For completely randomized designs, the levels of the primary factor are randomly assigned to the experimental units.

1 Randomization
2 Three key numbers
3 Example
- 3.1 Sample randomized sequence of trials
4 Model for a completely randomized design
5 Estimates and statistical tests
- 5.1 Estimating and testing model factor levels
6 See also
7 External links

Randomization

By randomization, that is to say the run sequence of the experimental units is determined randomly. For example, if there are 3 levels of the primary factor with each level to be run 2 times, then there are 6! (where ! denotes factorial) possible run sequences (or ways to order the experimental trials). Because of the replication, the number of unique orderings is 90 (since 90 = 6!/(2!*2!*2!)). An example of an unrandomized design would be to always run 2 replications for the first level, then 2 for the second level, and finally 2 for the third level. To randomize the runs, one way would be to put 6 slips of paper in a box with 2 having level 1, 2 having level 2, and 2 having level 3. Before each run, one of the slips would be drawn blindly from the box and the level selected would be used for the next run of the experiment.

In practice, the randomization is typically performed by a computer program. However, the randomization can also be generated from random number tables or by some physical mechanism (e.g., drawing the slips of paper).

Three key numbers

All completely randomized designs with one primary factor are defined by 3 numbers:

k = number of factors (= 1 for these designs)
L = number of levels
n = number of replications

and the total sample size (number of runs) is N = k × L × n. Balance dictates that the number of replications be the same at each level of the factor (this will maximize the sensitivity of subsequent statistical t- (or F-) tests).

Example

A typical example of a completely randomized design is the following:

k = 1 factor (X₁)
L = 4 levels of that single factor (called "1", "2", "3", and "4")
n = 3 replications per level
N = 4 levels × 3 replications per level = 12 runs

Sample randomized sequence of trials

The randomized sequence of trials might look like: X₁: 3, 1, 4, 2, 2, 1, 3, 4, 1, 2, 4, 3

Note that in this example there are 12!/(3!*3!*3!*3!) = 369,600 ways to run the experiment, all equally likely to be picked by a randomization procedure.

Model for a completely randomized design

The model for the response is $Y_{i,j} = \mu + T_i + \mathrm{random\ error}$

with

Y_i,j being any observation for which X₁ = i (i and j denote the level of the factor and the replication within the level of the factor, respectively)
μ (or mu) is the general location parameter
T_i is the effect of having treatment level i

Estimates and statistical tests

Estimating and testing model factor levels

Estimate for μ : $\bar{Y}$ = the average of all the data
Estimate for T_i : $\bar{Y}_i - \bar{Y}$

with $\bar{Y}_i$ = average of all Y for which X₁ = i.

Statistical tests for levels of X₁ are those used for a one-way ANOVA and are detailed in the article on analysis of variance.

External links

Completely randomized designs

v • d • e Design of experiments

Scientific Method	Scientific experiment · Statistical design · Control · Internal & external validity · Experimental unit · Blinding - Optimal design: Bayesian Random assignment · Randomization · Restricted randomization · Replication versus subsampling · Sample size · Power · Type I & II error

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Models & Inference	Linear regression · Linear model · Best linear unbiased estimation (BLUE) · Linear least squares · Maximum likelihood · Bayesian Random effect · Mixed model · Best linear unbiased prediction (BLUP) · Restricted maximum likelihood (REML) · Hierarchical model: Bayesian Analysis of variance (Anova) · F-distribution & Test · Chi-square distribution · Cochran's theorem · Manova (multivariate) · Ancova (covariance) Test · Most powerful · Paired · Compare means · Multiple comparison · Omnibus Nonparametric tests: Permutation · Exact · Wilcoxon signed-rank · Mann–Whitney U · Kruskal-Wallis · Friedman

Designs: Completely Randomized	Factorial · Fractional factorial · Plackett-Burman · Taguchi - Randomized controlled trial · Sequential analysis · Sequential probability ratio test Response-surface design · Polynomial & rational modeling · Box-Behnken · Central composite Block · Latin square · Graeco-Latin square · Hyper-Graeco-Latin square · Latin hypercube Repeated measures experiment · Crossover experiment · Missing & Censored data Observational studies: Longitudinal · Prospective & Retrospective Cohort · Panel study, data & analysis

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Completely randomized design

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