JMIM: Minimal joint mutual information maximisation filter
In praznik: Tools for Information-Based Feature Selection and Scoring
JMIM R Documentation
Minimal joint mutual information maximisation filter
Description
The method starts with a feature of a maximal mutual information with the decision Y.
Then, it greedily adds feature X with a maximal value of the following criterion:
J(X)=\min_{W\in S} I(X,W;Y),
where S is the set of already selected features.
Usage
JMIM(X, Y, k = 3, threads = 0)
Arguments
X
Attribute table, given as a data frame with either factors (preferred), booleans, integers (treated as categorical) or reals (which undergo automatic categorisation; see below for details).
Single vector will be interpreted as a data.frame with one column.
NAs are not allowed.
Y
Decision attribute; should be given as a factor, but other options are accepted, exactly like for attributes.
NAs are not allowed.
k
Number of attributes to select.
Must not exceed ncol(X).
threads
Number of threads to use; default value, 0, means all available to OpenMP.
Value
A list with two elements: selection, a vector of indices of the selected features in the selection order, and score, a vector of corresponding feature scores.
Names of both vectors will correspond to the names of features in X.
Both vectors will be at most of a length k, as the selection may stop sooner, even during initial selection, in which case both vectors will be empty.
Note
NJMIM is a normalised version of JMIM; JMI and DISR are modifications of JMIM and NJMIM in which a sum of joint information over already selected features is used instead of a minimum.
The method requires input to be discrete to use empirical estimators of distribution, and, consequently, information gain or entropy.
To allow smoother user experience, praznik automatically coerces non-factor vectors in inputs, which requires additional time, memory and may yield confusing results – the best practice is to convert data to factors prior to feeding them in this function.
Real attributes are cut into about 10 equally-spaced bins, following the heuristic often used in literature.
Precise number of cuts depends on the number of objects; namely, it is n/3, but never less than 2 and never more than 10.
Integers (which technically are also numeric) are treated as categorical variables (for compatibility with similar software), so in a very different way – one should be aware that an actually numeric attribute which happens to be an integer could be coerced into a n-level categorical, which would have a perfect mutual information score and would likely become a very disruptive false positive.
References
"Feature selection using Joint Mutual Information Maximisation" M. Bennasar, Y. Hicks and R. Setchi, (2015)
Examples
data(MadelonD)
JMIM(MadelonD$X,MadelonD$Y,20)
praznik documentation built on May 20, 2022, 5:06 p.m.
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| JMIM | R Documentation |
Minimal joint mutual information maximisation filter
Description
The method starts with a feature of a maximal mutual information with the decision Y. Then, it greedily adds feature X with a maximal value of the following criterion:
J(X)=\min_{W\in S} I(X,W;Y),
where S is the set of already selected features.
Usage
JMIM(X, Y, k = 3, threads = 0)
Arguments
X |
Attribute table, given as a data frame with either factors (preferred), booleans, integers (treated as categorical) or reals (which undergo automatic categorisation; see below for details).
Single vector will be interpreted as a data.frame with one column.
|
Y |
Decision attribute; should be given as a factor, but other options are accepted, exactly like for attributes.
|
k |
Number of attributes to select.
Must not exceed |
threads |
Number of threads to use; default value, 0, means all available to OpenMP. |
Value
A list with two elements: selection, a vector of indices of the selected features in the selection order, and score, a vector of corresponding feature scores.
Names of both vectors will correspond to the names of features in X.
Both vectors will be at most of a length k, as the selection may stop sooner, even during initial selection, in which case both vectors will be empty.
Note
NJMIM is a normalised version of JMIM; JMI and DISR are modifications of JMIM and NJMIM in which a sum of joint information over already selected features is used instead of a minimum.
The method requires input to be discrete to use empirical estimators of distribution, and, consequently, information gain or entropy. To allow smoother user experience, praznik automatically coerces non-factor vectors in inputs, which requires additional time, memory and may yield confusing results – the best practice is to convert data to factors prior to feeding them in this function. Real attributes are cut into about 10 equally-spaced bins, following the heuristic often used in literature. Precise number of cuts depends on the number of objects; namely, it is n/3, but never less than 2 and never more than 10. Integers (which technically are also numeric) are treated as categorical variables (for compatibility with similar software), so in a very different way – one should be aware that an actually numeric attribute which happens to be an integer could be coerced into a n-level categorical, which would have a perfect mutual information score and would likely become a very disruptive false positive.
References
"Feature selection using Joint Mutual Information Maximisation" M. Bennasar, Y. Hicks and R. Setchi, (2015)
Examples
data(MadelonD) JMIM(MadelonD$X,MadelonD$Y,20)
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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