woe: Weights of evidence
In klaR: Classification and Visualization
woe R Documentation
Weights of evidence
Description
Computes weight of evidence transform of factor variables for binary classification.
Usage
woe(x, ...)
## Default S3 method:
woe(x, grouping, weights = NULL, zeroadj = 0, ids = NULL,
appont = TRUE, ...)
## S3 method for class 'formula'
woe(formula, data = NULL, weights = NULL, ...)
Arguments
x
A matrix or data frame containing the explanatory variables.
grouping
A factor specifying the binary class for each observation.
formula
A formula of the form grouping ~ x1 + x2 + ... That is, the response is the grouping factor and the right hand side specifies the discriminators.
data
Data frame from which variables specified in formula are to be taken.
weights
Vector with observation weights. For call woe(formula, data, weights) also a a character is possible that specifies the name of the weight coloumn in data.
zeroadj
Additive constant to be added for a level with 0 observations in a class.
ids
Vector of either indices or variable names that specifies the variables to be transformed.
appont
Application on training data: logical indicating whether the transformed values for the training data should be returned by recursive calling of predict.woe.
...
For woe.formula: Further arguments passed to function woe.default such as ids. For woe.default: replace = FALSE can be passed to recursive call of predict.woe if appont.
Details
To each factor level x a numeric value WOE(x) = ln(f(x|1)/f(x|2)) is assigned where 1 and 2 denote the class labels. The WOE transform is motivated for subsequent modelling by logistic regression. Note that the frequencies of the classes should be investigated before. Information values heuristically quantify the discriminatory power of a variable by IV = (f(x|1)-f(x|2)) ln(f(x|1)/f(x|2)).
Value
Returns an object of class woe that can be applied to new data.
woe
WOE coefficients for factor2numeric transformation of each (specified) variable.
IV
Vector of information values of all transformed variables.
newx
Data frame of transformed data if appont.
Author(s)
Gero Szepannek
References
Good, I. (1950): Probability and the Weighting of Evidences. Charles Griffin, London.
Kullback, S. (1959): Information Theory and Statistics. Wiley, New York.
See Also
predict.woe, plot.woe
Examples
## load German credit data
data("GermanCredit")
## training/validation split
train <- sample(nrow(GermanCredit), round(0.6*nrow(GermanCredit)))
woemodel <- woe(credit_risk~., data = GermanCredit[train,], zeroadj=0.5, applyontrain = TRUE)
woemodel
## plot variable information values and woes
plot(woemodel)
plot(woemodel, type = "woes")
## apply woes
traindata <- predict(woemodel, GermanCredit[train,], replace = TRUE)
str(traindata)
## fit logistic regression model
glmodel <- glm(credit_risk~., traindata, family=binomial)
summary(glmodel)
pred.trn <- predict(glmodel, traindata, type = "response")
## predict validation data
validata <- predict(woemodel, GermanCredit[-train,], replace = TRUE)
pred.val <- predict(glmodel, validata, type = "response")
klaR documentation built on March 31, 2023, 3:03 p.m.
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| woe | R Documentation |
Weights of evidence
Description
Computes weight of evidence transform of factor variables for binary classification.
Usage
woe(x, ...)
## Default S3 method:
woe(x, grouping, weights = NULL, zeroadj = 0, ids = NULL,
appont = TRUE, ...)
## S3 method for class 'formula'
woe(formula, data = NULL, weights = NULL, ...)
Arguments
x |
A matrix or data frame containing the explanatory variables. |
grouping |
A factor specifying the binary class for each observation. |
formula |
A formula of the form |
data |
Data frame from which variables specified in formula are to be taken. |
weights |
Vector with observation weights. For call |
zeroadj |
Additive constant to be added for a level with 0 observations in a class. |
ids |
Vector of either indices or variable names that specifies the variables to be transformed. |
appont |
Application on training data: logical indicating whether the transformed values for the training data should be returned by recursive calling of |
... |
For |
Details
To each factor level x a numeric value WOE(x) = ln(f(x|1)/f(x|2)) is assigned where 1 and 2 denote the class labels. The WOE transform is motivated for subsequent modelling by logistic regression. Note that the frequencies of the classes should be investigated before. Information values heuristically quantify the discriminatory power of a variable by IV = (f(x|1)-f(x|2)) ln(f(x|1)/f(x|2)).
Value
Returns an object of class woe that can be applied to new data.
woe |
WOE coefficients for factor2numeric transformation of each (specified) variable. |
IV |
Vector of information values of all transformed variables. |
newx |
Data frame of transformed data if |
Author(s)
Gero Szepannek
References
Good, I. (1950): Probability and the Weighting of Evidences. Charles Griffin, London.
Kullback, S. (1959): Information Theory and Statistics. Wiley, New York.
See Also
predict.woe, plot.woe
Examples
## load German credit data
data("GermanCredit")
## training/validation split
train <- sample(nrow(GermanCredit), round(0.6*nrow(GermanCredit)))
woemodel <- woe(credit_risk~., data = GermanCredit[train,], zeroadj=0.5, applyontrain = TRUE)
woemodel
## plot variable information values and woes
plot(woemodel)
plot(woemodel, type = "woes")
## apply woes
traindata <- predict(woemodel, GermanCredit[train,], replace = TRUE)
str(traindata)
## fit logistic regression model
glmodel <- glm(credit_risk~., traindata, family=binomial)
summary(glmodel)
pred.trn <- predict(glmodel, traindata, type = "response")
## predict validation data
validata <- predict(woemodel, GermanCredit[-train,], replace = TRUE)
pred.val <- predict(glmodel, validata, type = "response")
R Package Documentation
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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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