stabilityUnadjusted: Stability Measure Unadjusted
In stabm: Stability Measures for Feature Selection
View source: R/stability_functions_corrected.R
stabilityUnadjusted R Documentation
Stability Measure Unadjusted
Description
The stability of feature selection is defined as the robustness of
the sets of selected features with respect to small variations in the data on which the
feature selection is conducted. To quantify stability, several datasets from the
same data generating process can be used. Alternatively, a single dataset can be
split into parts by resampling. Either way, all datasets used for feature selection must
contain exactly the same features. The feature selection method of interest is
applied on all of the datasets and the sets of chosen features are recorded.
The stability of the feature selection is assessed based on the sets of chosen features
using stability measures.
Usage
stabilityUnadjusted(features, p, impute.na = NULL)
Arguments
features
list (length >= 2)
Chosen features per dataset. Each element of the list contains the features for one dataset.
The features must be given by their names (character) or indices (integerish).
p
numeric(1)
Total number of features in the datasets.
impute.na
numeric(1)
In some scenarios, the stability cannot be assessed based on all feature sets.
E.g. if some of the feature sets are empty, the respective pairwise comparisons yield NA as result.
With which value should these missing values be imputed? NULL means no imputation.
Details
The stability measure is defined as (see Notation)
\frac{2}{m (m - 1)} \sum_{i=1}^{m-1} \sum_{j = i+1}^m
\frac{|V_i \cap V_j| - \frac{|V_i| \cdot |V_j|}{p}}
{\sqrt{|V_i| \cdot |V_j|} - \frac{|V_i| \cdot |V_j|}{p}}.
This is what stabilityIntersectionMBM, stabilityIntersectionGreedy,
stabilityIntersectionCount and stabilityIntersectionMean
become, when there are no similar features.
Value
numeric(1) Stability value.
Notation
For the definition of all stability measures in this package,
the following notation is used:
Let V_1, \ldots, V_m denote the sets of chosen features
for the m datasets, i.e. features has length m and
V_i is a set which contains the i-th entry of features.
Furthermore, let h_j denote the number of sets that contain feature
X_j so that h_j is the absolute frequency with which feature X_j
is chosen.
Analogously, let h_{ij} denote the number of sets that include both X_i and X_j.
Also, let q = \sum_{j=1}^p h_j = \sum_{i=1}^m |V_i| and V = \bigcup_{i=1}^m V_i.
References
Bommert A, Rahnenführer J (2020).
“Adjusted Measures for Feature Selection Stability for Data Sets with Similar Features.”
In Machine Learning, Optimization, and Data Science, 203–214.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/978-3-030-64583-0_19")}.
Bommert A (2020).
Integration of Feature Selection Stability in Model Fitting.
Ph.D. thesis, TU Dortmund University, Germany.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.17877/DE290R-21906")}.
See Also
listStabilityMeasures
Examples
feats = list(1:3, 1:4, 1:5)
stabilityUnadjusted(features = feats, p = 10)
stabm documentation built on April 4, 2023, 5:12 p.m.
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View source: R/stability_functions_corrected.R
| stabilityUnadjusted | R Documentation |
Stability Measure Unadjusted
Description
The stability of feature selection is defined as the robustness of the sets of selected features with respect to small variations in the data on which the feature selection is conducted. To quantify stability, several datasets from the same data generating process can be used. Alternatively, a single dataset can be split into parts by resampling. Either way, all datasets used for feature selection must contain exactly the same features. The feature selection method of interest is applied on all of the datasets and the sets of chosen features are recorded. The stability of the feature selection is assessed based on the sets of chosen features using stability measures.
Usage
stabilityUnadjusted(features, p, impute.na = NULL)
Arguments
features |
|
p |
|
impute.na |
|
Details
The stability measure is defined as (see Notation)
\frac{2}{m (m - 1)} \sum_{i=1}^{m-1} \sum_{j = i+1}^m
\frac{|V_i \cap V_j| - \frac{|V_i| \cdot |V_j|}{p}}
{\sqrt{|V_i| \cdot |V_j|} - \frac{|V_i| \cdot |V_j|}{p}}.
This is what stabilityIntersectionMBM, stabilityIntersectionGreedy, stabilityIntersectionCount and stabilityIntersectionMean become, when there are no similar features.
Value
numeric(1) Stability value.
Notation
For the definition of all stability measures in this package,
the following notation is used:
Let V_1, \ldots, V_m denote the sets of chosen features
for the m datasets, i.e. features has length m and
V_i is a set which contains the i-th entry of features.
Furthermore, let h_j denote the number of sets that contain feature
X_j so that h_j is the absolute frequency with which feature X_j
is chosen.
Analogously, let h_{ij} denote the number of sets that include both X_i and X_j.
Also, let q = \sum_{j=1}^p h_j = \sum_{i=1}^m |V_i| and V = \bigcup_{i=1}^m V_i.
References
Bommert A, Rahnenführer J (2020). “Adjusted Measures for Feature Selection Stability for Data Sets with Similar Features.” In Machine Learning, Optimization, and Data Science, 203–214. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/978-3-030-64583-0_19")}.
Bommert A (2020). Integration of Feature Selection Stability in Model Fitting. Ph.D. thesis, TU Dortmund University, Germany. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.17877/DE290R-21906")}.
See Also
listStabilityMeasures
Examples
feats = list(1:3, 1:4, 1:5)
stabilityUnadjusted(features = feats, p = 10)
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.
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