ssize.pcc: Sample Size Planning for Developing Classifiers Using High...
In stamats/MKmisc: Miscellaneous Functions from M. Kohl
ssize.pcc R Documentation
Sample Size Planning for Developing Classifiers Using High Dimensional Data
Description
Calculate sample size for training set in developing classifiers using high
dimensional data. The calculation is based on the probability of correct classification
(PCC).
Usage
ssize.pcc(gamma, stdFC, prev = 0.5, nrFeatures, sigFeatures = 20, verbose = FALSE)
Arguments
gamma
tolerance between PCC(infty) and PCC(n).
stdFC
expected standardized fold-change; that is, expected fold-change devided
by within class standard deviation.
prev
expected prevalence.
nrFeatures
number of features (variables) considered.
sigFeatures
number of significatn features; default (20) should be sufficient
for most if not all cases.
verbose
print intermediate results.
Details
The computations are based the algorithm provided in Section~4.2 of
Dobbin and Simon (2007). Prevalence is incorporated by the simple rough
approach given in Section~4.4 (ibid.).
The results for prevalence equal to $50%$ are identical to the numbers computed
by https://brb.nci.nih.gov/brb/samplesize/samplesize4GE.html. For
other prevalences the numbers differ and are larger for our implementation.
Value
Object of class "power.htest", a list of the arguments
(including the computed one) augmented with method and
note elements.
Note
optimize is used to solve equation (4.3) of Dobbin and Simon (2007),
so you may see errors from it.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
References
K. Dobbin and R. Simon (2007). Sample size planning for developing classifiers
using high-dimensional DNA microarray data.
Biostatistics, 8(1):101-117.
K. Dobbin, Y. Zhao, R. Simon (2008). How Large a Training Set is Needed to
Develop a Classifier for Microarray Data?
Clin Cancer Res., 14(1):108-114.
See Also
optimize
Examples
## see Table 2 of Dobbin et al. (2008)
g <- 0.1
fc <- 1.6
ssize.pcc(gamma = g, stdFC = fc, nrFeatures = 22000)
## see Table 3 of Dobbin et al. (2008)
g <- 0.05
fc <- 1.1
ssize.pcc(gamma = g, stdFC = fc, nrFeatures = 22000)
stamats/MKmisc documentation built on Nov. 20, 2022, 6:06 a.m.
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| ssize.pcc | R Documentation |
Sample Size Planning for Developing Classifiers Using High Dimensional Data
Description
Calculate sample size for training set in developing classifiers using high dimensional data. The calculation is based on the probability of correct classification (PCC).
Usage
ssize.pcc(gamma, stdFC, prev = 0.5, nrFeatures, sigFeatures = 20, verbose = FALSE)
Arguments
gamma |
tolerance between PCC(infty) and PCC(n). |
stdFC |
expected standardized fold-change; that is, expected fold-change devided by within class standard deviation. |
prev |
expected prevalence. |
nrFeatures |
number of features (variables) considered. |
sigFeatures |
number of significatn features; default (20) should be sufficient for most if not all cases. |
verbose |
print intermediate results. |
Details
The computations are based the algorithm provided in Section~4.2 of Dobbin and Simon (2007). Prevalence is incorporated by the simple rough approach given in Section~4.4 (ibid.).
The results for prevalence equal to $50%$ are identical to the numbers computed by https://brb.nci.nih.gov/brb/samplesize/samplesize4GE.html. For other prevalences the numbers differ and are larger for our implementation.
Value
Object of class "power.htest", a list of the arguments
(including the computed one) augmented with method and
note elements.
Note
optimize is used to solve equation (4.3) of Dobbin and Simon (2007),
so you may see errors from it.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
References
K. Dobbin and R. Simon (2007). Sample size planning for developing classifiers using high-dimensional DNA microarray data. Biostatistics, 8(1):101-117.
K. Dobbin, Y. Zhao, R. Simon (2008). How Large a Training Set is Needed to Develop a Classifier for Microarray Data? Clin Cancer Res., 14(1):108-114.
See Also
optimize
Examples
## see Table 2 of Dobbin et al. (2008) g <- 0.1 fc <- 1.6 ssize.pcc(gamma = g, stdFC = fc, nrFeatures = 22000) ## see Table 3 of Dobbin et al. (2008) g <- 0.05 fc <- 1.1 ssize.pcc(gamma = g, stdFC = fc, nrFeatures = 22000)
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