Size.Block: The number of Blocks Calculator for Randomized Complete Block...
In BDEsize: Efficient Determination of Sample Size in Balanced Design of Experiments
Description
Usage
Arguments
Details
Value
References
See Also
Examples
Description
This function computes the number of blocks for randomized complete block design to detect a certain standardized effect size with power at the significance level.
Usage
1
2
Size.Block(factor.lev, interaction = FALSE, delta_type = 1, delta = c(1, 0, 1),
alpha = 0.05, beta = 0.2, maxsize = 1000)
Arguments
factor.lev
vector of the numbers of levels for each factor.
interaction
specifies whether two-way interaction effects are included in a model with the main effects. When interaction = TRUE,
two-way interaction effects are include in a model.
delta_type
specifies the type of standardized effect size: 1 for standard deviation type and 2 for range type.
delta
vector of effect sizes: delta[1] for main effects, delta[2] for two-way interaction effects, and delta[3] for standard deviation of noise.
When interaction=FALSE, delta[2] is 0.
alpha
Type I error.
beta
Type II error.
maxsize
tolerance for the number of blocks.
Details
In a randomized complete block design (without replications), the optimal number of blocks need to be determined.
This function computes the number of blocks for randomized complete block design to detect a certain standardized effect size delta with power 1-beta at the significance level alpha.
Value
model
a character vector expressing a model. The main effects are expressed by the upper-case letters
of the Roman alphabet, and two-way interaction effects are denoted by * operator for pairs of the main effects.
The block factor is denoted by Block.
n
optimal the number of blocks.
Delta
a vector of minimal detectable standardized effect sizes.
References
R. V. Lenth (2006-9). Java Applets for Power and Sample Size[Computer software]. Retrieved March 27, 2018 from https://homepage.divms.uiowa.edu/~rlenth/Power/.
Y. B. Lim (1998). Study on the Size of Minimal Standardized Detectable Difference in Balanced Design of Experiments.
Journal of the Korean society for Quality Management, 26(4), 239–249.
M. A. Kastenbaum, D. G. Hoel and K. O. Bowman (1970) Sample size requirements : one-way analysis of variance, Biometrika, 57(2), 421–430.
D. C. Montgomery (2013) Design and analysis of experiments. John Wiley & Sons.
See Also
Size.Full, Size.2levFr, Size.Split.
Examples
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# only main effects
model1 <- Size.Block(factor.lev=c(2, 2), interaction=FALSE,
delta_type=1, delta=c(1, 0, 1), alpha=0.05, beta=0.2)
model1$model
model1$n
model1$Delta
# including two-way interaction effects
model2 <- Size.Block(factor.lev=c(2, 2), interaction=TRUE,
delta_type=1, delta=c(1, 1, 1), alpha=0.05, beta=0.2)
model2
BDEsize documentation built on Sept. 30, 2021, 1:06 a.m.
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Description Usage Arguments Details Value References See Also Examples
Description
This function computes the number of blocks for randomized complete block design to detect a certain standardized effect size with power at the significance level.
Usage
1 2 | Size.Block(factor.lev, interaction = FALSE, delta_type = 1, delta = c(1, 0, 1),
alpha = 0.05, beta = 0.2, maxsize = 1000)
|
Arguments
factor.lev |
vector of the numbers of levels for each factor. |
interaction |
specifies whether two-way interaction effects are included in a model with the main effects. When |
delta_type |
specifies the type of standardized effect size: 1 for standard deviation type and 2 for range type. |
delta |
vector of effect sizes: |
alpha |
Type I error. |
beta |
Type II error. |
maxsize |
tolerance for the number of blocks. |
Details
In a randomized complete block design (without replications), the optimal number of blocks need to be determined.
This function computes the number of blocks for randomized complete block design to detect a certain standardized effect size delta with power 1-beta at the significance level alpha.
Value
model |
a character vector expressing a model. The main effects are expressed by the upper-case letters
of the Roman alphabet, and two-way interaction effects are denoted by * operator for pairs of the main effects.
The block factor is denoted by |
n |
optimal the number of blocks. |
Delta |
a vector of minimal detectable standardized effect sizes. |
References
R. V. Lenth (2006-9). Java Applets for Power and Sample Size[Computer software]. Retrieved March 27, 2018 from https://homepage.divms.uiowa.edu/~rlenth/Power/.
Y. B. Lim (1998). Study on the Size of Minimal Standardized Detectable Difference in Balanced Design of Experiments. Journal of the Korean society for Quality Management, 26(4), 239–249.
M. A. Kastenbaum, D. G. Hoel and K. O. Bowman (1970) Sample size requirements : one-way analysis of variance, Biometrika, 57(2), 421–430.
D. C. Montgomery (2013) Design and analysis of experiments. John Wiley & Sons.
See Also
Size.Full, Size.2levFr, Size.Split.
Examples
1 2 3 4 5 6 7 8 9 10 11 | # only main effects
model1 <- Size.Block(factor.lev=c(2, 2), interaction=FALSE,
delta_type=1, delta=c(1, 0, 1), alpha=0.05, beta=0.2)
model1$model
model1$n
model1$Delta
# including two-way interaction effects
model2 <- Size.Block(factor.lev=c(2, 2), interaction=TRUE,
delta_type=1, delta=c(1, 1, 1), alpha=0.05, beta=0.2)
model2
|
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