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Home: https://rubygems.org/gems/fselector
Source Code: https://github.com/need47/fselector
Documentation: http://rubydoc.info/gems/fselector/frames
Publication: Bioinformatics, 2012, 28, 2851-2852
Author: Tiejun Cheng
Email: need47@gmail.com
Copyright: 2012
License: MIT License
Latest Version: 1.4.0
Release Date: 2012-11-05
FSelector is a Ruby gem that aims to integrate various feature selection algorithms and related functions into one single package. Welcome to contact me (need47@gmail.com) if you'd like to contribute your own algorithms or report a bug. FSelector allows user to perform feature selection by using either a single algorithm or an ensemble of multiple algorithms, and other common tasks including normalization and discretization on continuous data, as well as replace missing feature values with certain criterion. FSelector acts on a full-feature data set in either CSV, LibSVM or WEKA file format and outputs a reduced data set with only selected subset of features, which can later be used as the input for various machine learning softwares such as LibSVM and WEKA. FSelector, as a collection of filter methods, does not implement any classifier like support vector machines or random forest. Check below for a list of FSelector's features, {file:ChangeLog} for updates, and {file:HowToContribute} if you want to contribute.
1. supported input/output file types
2. available feature selection/ranking algorithms
algorithm shortcut algo_type applicability feature_type
--------------------------------------------------------------------------------------------------
Accuracy Acc weighting multi-class discrete
AccuracyBalanced Acc2 weighting multi-class discrete
BiNormalSeparation BNS weighting multi-class discrete
CFS_d CFS_d searching multi-class discrete
ChiSquaredTest CHI weighting multi-class discrete
CorrelationCoefficient CC weighting multi-class discrete
DocumentFrequency DF weighting multi-class discrete
F1Measure F1 weighting multi-class discrete
FishersExactTest FET weighting multi-class discrete
FastCorrelationBasedFilter FCBF searching multi-class discrete
GiniIndex GI weighting multi-class discrete
GMean GM weighting multi-class discrete
GSSCoefficient GSS weighting multi-class discrete
InformationGain IG weighting multi-class discrete
INTERACT INTERACT searching multi-class discrete
JMeasure JM weighting multi-class discrete
KLDivergence KLD weighting multi-class discrete
MatthewsCorrelationCoefficient MCC, PHI weighting multi-class discrete
McNemarsTest MNT weighting multi-class discrete
OddsRatio OR weighting multi-class discrete
OddsRatioNumerator ORN weighting multi-class discrete
PhiCoefficient PHI weighting multi-class discrete
Power Power weighting multi-class discrete
Precision Precision weighting multi-class discrete
ProbabilityRatio PR weighting multi-class discrete
Recall Recall weighting multi-class discrete
Relief_d Relief_d weighting two-class discrete
ReliefF_d ReliefF_d weighting multi-class discrete
Sensitivity SN, Recall weighting multi-class discrete
Specificity SP weighting multi-class discrete
SymmetricalUncertainty SU weighting multi-class discrete
BetweenWithinClassesSumOfSquare BSS_WSS weighting multi-class continuous
CFS_c CFS_c searching multi-class continuous
FTest FT weighting multi-class continuous
KS_CCBF KS_CCBF searching multi-class continuous
KSTest KST weighting two-class continuous
PMetric PM weighting two-class continuous
Relief_c Relief_c weighting two-class continuous
ReliefF_c ReliefF_c weighting multi-class continuous
TScore TS weighting two-class continuous
WilcoxonRankSum WRS weighting two-class continuous
LasVegasFilter LVF searching multi-class discrete, continuous, mixed
LasVegasIncremental LVI searching multi-class discrete, continuous, mixed
Random Rand weighting multi-class discrete, continuous, mixed
RandomSubset RandS searching multi-class discrete, continuous, mixed
note for feature selection interface:
there are two types of filter algorithms: filter_by_feature_weighting and filter_by_feature_searching
3. feature selection approaches
4. availabe normalization and discretization algorithms for continuous feature
algorithm note
---------------------------------------------------------------------------------------
normalize_by_log! normalize by logarithmic transformation
normalize_by_min_max! normalize by scaling into [min, max]
normalize_by_zscore! normalize by converting into zscore
discretize_by_equal_width! discretize by equal width among intervals
discretize_by_equal_frequency! discretize by equal frequency among intervals
discretize_by_ChiMerge! discretize by ChiMerge algorithm
discretize_by_Chi2! discretize by Chi2 algorithm
discretize_by_MID! discretize by Multi-Interval Discretization algorithm
discretize_by_TID! discretize by Three-Interval Discretization algorithm
5. availabe algorithms for replacing missing feature values
algorithm note feature_type
---------------------------------------------------------------------------------------------
replace_by_fixed_value! replace by a fixed value discrete, continuous
replace_by_mean_value! replace by mean feature value continuous
replace_by_median_value! replace by median feature value continuous
replace_by_knn_value! replace by weighted knn feature value continuous
replace_by_most_seen_value! replace by most seen feature value discrete
To install FSelector, use the following command:
$ gem install fselector
note: From version 0.5.0, FSelector uses the RinRuby gem (http://rinruby.ddahl.org) as a seemless bridge to access the statistical routines in the R package (http://www.r-project.org), which will greatly expand the inclusion of algorithms to FSelector, especially for those relying on statistical test. To this end, please pre-install the R package. RinRuby should have been auto-installed with FSelector via the above command.
1. feature selection by a single algorithm
require 'fselector'
# use InformationGain (IG) as a feature selection algorithm
r1 = FSelector::IG.new
# read from random data (or csv, libsvm, weka ARFF file)
# no. of samples: 100
# no. of classes: 2
# no. of features: 15
# no. of possible values for each feature: 3
# allow missing values: true
r1.data_from_random(100, 2, 15, 3, true)
# number of features before feature selection
puts " # features (before): "+ r1.get_features.size.to_s
# select the top-ranked features with scores >0.01
r1.select_feature_by_score!('>0.01')
# number of features after feature selection
puts " # features (after): "+ r1.get_features.size.to_s
# you can also use a second alogirithm for further feature selection
# e.g. use the ChiSquaredTest (CHI) with Yates' continuity correction
# initialize from r1's data
r2 = FSelector::CHI.new(:yates, r1.get_data)
# number of features before feature selection
puts " # features (before): "+ r2.get_features.size.to_s
# select the top-ranked 3 features
r2.select_feature_by_rank!('<=3')
# number of features after feature selection
puts " # features (after): "+ r2.get_features.size.to_s
# save data to standard ouput as a weka ARFF file (sparse format)
# with selected features only
r2.data_to_weka(:stdout, :sparse)
2. feature selection by an ensemble of multiple feature selectors
require 'fselector'
# example 1
#
# creating an ensemble of feature selectors by using
# a single feature selection algorithm (INTERACT)
# by instance perturbation (e.g. random sampling)
# test for the type of feature subset selection algorithms
r = FSelector::INTERACT.new(0.0001)
# an ensemble of 40 feature selectors with 90% data by random sampling
re = FSelector::EnsembleSingle.new(r, 40, 0.90, :random_sampling)
# read SPECT data set (under the test/ directory)
re.data_from_csv('test/SPECT_train.csv')
# number of features before feature selection
puts ' # features (before): ' + re.get_features.size.to_s
# only features with above average count among ensemble are selected
re.select_feature!
# number of features after feature selection
puts ' # features before (after): ' + re.get_features.size.to_s
# example 2
#
# creating an ensemble of feature selectors by using
# two feature selection algorithms: InformationGain (IG) and Relief_d.
# note: can be 2+ algorithms, as long as they are of the same type,
# either filter_by_feature_weighting or filter_by_feature_searching
# test for the type of feature weighting algorithms
r1 = FSelector::IG.new
r2 = FSelector::Relief_d.new(10)
# an ensemble of two feature selectors
re = FSelector::EnsembleMultiple.new(r1, r2)
# read random discrete data (containing missing value)
re.data_from_random(100, 2, 15, 3, true)
# replace missing value because Relief_d
# does not allow missing value
re.replace_by_most_seen_value!
# number of features before feature selection
puts ' # features (before): ' + re.get_features.size.to_s
# based on the max feature score (z-score standardized) among
# an ensemble of feature selectors
re.ensemble_by_score(:by_max, :by_zscore)
# select the top-ranked 3 features
re.select_feature_by_rank!('<=3')
# number of features after feature selection
puts ' # features (after): ' + re.get_features.size.to_s
3. feature selection after discretization
require 'fselector'
# the Information Gain (IG) algorithm requires data with discrete feature
r = FSelector::IG.new
# but the Iris data set contains continuous features
r.data_from_url('http://repository.seasr.org/Datasets/UCI/arff/iris.arff', :weka)
# let's first discretize it by ChiMerge algorithm at alpha=0.10
# then perform feature selection as usual
r.discretize_by_ChiMerge!(0.10)
# number of features before feature selection
puts ' # features (before): ' + r.get_features.size.to_s
# select the top-ranked feature
r.select_feature_by_rank!('<=1')
# number of features after feature selection
puts ' # features (after): ' + r.get_features.size.to_s
4. see more examples test_*.rb under the test/ directory
check {file:HowToContribute} to see how to write your own feature selection algorithms and/or make contribution to FSelector.
A {file:ChangeLog} is available from version 0.5.0 and upward to refelect what's new and what's changed.
FSelector © 2012 by Tiejun Cheng. FSelector is licensed under the MIT license. Please see the {file:LICENSE} for more information.
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