genParameters: Generate Parameters
In ChemmineR: Cheminformatics Toolkit for R
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
Generate statistics from a fingerprint database for use in caluclating z-scores, E-values,
and p-values later.
Usage
1
genParameters(fpset, similarity = fpSim, sampleFraction = 1, ...)
Arguments
fpset
The database of fingerprints. Needs to be in the format expected by the similarity function.
For the default similarity function, this would be an FPset.
similarity
A function to compute the similarity between two fingerprints. The first argument should be
a single query and the second argument should be a set of fingerprints.
sampleFraction
The fraction of all pairs to use for estimating parameters. See Details section.
...
Extra parameters will be passed on to the similarity function.
Details
A beta function will be fit to the distribution of similarity scores
produced by the given similarity function. By default, all pairwise similarities will be
computed. Since this can be expensive for large databases, one can also sample pairs to use.
This can be done by setting sampleFraction to the fraction of all pairwise similarities to
use. For example, for a database of 100 fingerprints, there are 10,000 pairs. Setting
sampleFraction to 0.5 will result in only 5,000 pairs being used to estimate the
parameters.
Parameters are conditioned on the number of set bits. This function therefore groups
fingerprints by the number of set bits they have and then estimates parameters for each group.
A set of global parameters is also estimated and returned for use in cases where there was not
enough data to estimate the parameters for a particular number of set bits.
Value
A data frame with the following columns:
count
The number of similarities used to estimate these parameters
avg
the mean
variance
the variance
alpha
The alpha paramber of the Beta function
beta
The beta parameter of the Beta function
There will be a row for each possible count of 1 bits. So for a database of 1024 bit
fingerprints, there will be 1025 rows for the possible values of 0-1024 bits. There will also be one
additional row at the end with the global parameters. This can be used for cases where there
are no parameters estimated for the current query 1-bit count.
Author(s)
Kevin Horan
References
Pierre Baldi and Ramzi Nasr, "When is Chemical Similarity Significant? The Statistical
Distribution of Chemical Similarity Scores and Its Extreme Values"
Journal of Chemical Information and Modeling 2010 50 (7), 1205-1222
See Also
Examples
1
2
3
4
5
6
ChemmineR documentation built on Feb. 28, 2021, 2:02 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Arguments Details Value Author(s) References See Also Examples
Description
Generate statistics from a fingerprint database for use in caluclating z-scores, E-values, and p-values later.
Usage
1 | genParameters(fpset, similarity = fpSim, sampleFraction = 1, ...)
|
Arguments
fpset |
The database of fingerprints. Needs to be in the format expected by the similarity function.
For the default similarity function, this would be an |
similarity |
A function to compute the similarity between two fingerprints. The first argument should be a single query and the second argument should be a set of fingerprints. |
sampleFraction |
The fraction of all pairs to use for estimating parameters. See Details section. |
... |
Extra parameters will be passed on to the similarity function. |
Details
A beta function will be fit to the distribution of similarity scores
produced by the given similarity function. By default, all pairwise similarities will be
computed. Since this can be expensive for large databases, one can also sample pairs to use.
This can be done by setting sampleFraction to the fraction of all pairwise similarities to
use. For example, for a database of 100 fingerprints, there are 10,000 pairs. Setting
sampleFraction to 0.5 will result in only 5,000 pairs being used to estimate the
parameters.
Parameters are conditioned on the number of set bits. This function therefore groups fingerprints by the number of set bits they have and then estimates parameters for each group. A set of global parameters is also estimated and returned for use in cases where there was not enough data to estimate the parameters for a particular number of set bits.
Value
A data frame with the following columns:
count |
The number of similarities used to estimate these parameters |
avg |
the mean |
variance |
the variance |
alpha |
The alpha paramber of the Beta function |
beta |
The beta parameter of the Beta function |
There will be a row for each possible count of 1 bits. So for a database of 1024 bit fingerprints, there will be 1025 rows for the possible values of 0-1024 bits. There will also be one additional row at the end with the global parameters. This can be used for cases where there are no parameters estimated for the current query 1-bit count.
Author(s)
Kevin Horan
References
Pierre Baldi and Ramzi Nasr, "When is Chemical Similarity Significant? The Statistical Distribution of Chemical Similarity Scores and Its Extreme Values" Journal of Chemical Information and Modeling 2010 50 (7), 1205-1222
See Also
Examples
1 2 3 4 5 6 |
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.