confusion_matrix: Confusion Matrices (Contingency Tables)
In dewittpe/qwraps2: Quick Wraps 2
View source: R/confusion_matrix.R
confusion_matrix R Documentation
Confusion Matrices (Contingency Tables)
Description
Construction of confusion matrices, accuracy, sensitivity,
specificity, confidence intervals (Wilson's method and (optional
bootstrapping)).
Usage
confusion_matrix(
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## Default S3 method:
confusion_matrix(
truth,
predicted,
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'formula'
confusion_matrix(
formula,
data = parent.frame(),
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'glm'
confusion_matrix(
x,
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'qwraps2_confusion_matrix'
print(x, ...)
Arguments
...
pass through
thresholds
a numeric vector of thresholds to be used to define the
confusion matrix (one threshold) or matrices (two or more thresholds). If
NULL the unique values of predicted will be used.
confint_method
character string denoting if the logit (default),
binomial, or Wilson Score method for deriving confidence intervals
alpha
alpha level for 100 * (1 - alpha)% confidence intervals
truth
a integer vector with the values 0 and 1, or a logical vector.
A value of 0 or FALSE is an indication of condition negative;
1 or TRUE is an indication of condition positive.
predicted
a numeric vector. See Details.
formula
column (known) ~ row (test) for building the confusion matrix
data
environment containing the variables listed in the formula
x
a glm object
Details
The confusion matrix:
True Condition
+ -
Predicted Condition + TP FP
Predicted Condition - FN TN
where
FN: False Negative = truth = 1 & prediction < threshold,
FP: False Positive = truth = 0 & prediction >= threshold,
TN: True Negative = truth = 0 & prediction < threshold, and
TP: True Positive = truth = 1 & prediction >= threshold.
The statistics returned in the stats element are:
accuracy = (TP + TN) / (TP + TN + FP + FN)
sensitivity, aka true positive rate = TP / (TP + FN)
specificity, aka true negative rate = TN / (TN + FP)
positive predictive value (PPV), aka precision = TP / (TP + FP)
negative predictive value (NPV) = TN / (TN + FN)
false negative rate (FNR) = 1 - Sensitivity
false positive rate (FPR) = 1 - Specificity
false discovery rate (FDR) = 1 - PPV
false omission rate (FOR) = 1 - NPV
F1 score
Matthews Correlation Coefficient (MCC) =
((TP * TN) - (FP * FN)) / sqrt((TP + FP) (TP+FN) (TN+FP) (TN+FN))
Synonyms for the statistics:
Sensitivity: true positive rate (TPR), recall, hit rate
Specificity: true negative rate (TNR), selectivity
PPV: precision
FNR: miss rate
Sensitivity and PPV could, in some cases, be indeterminate due to division by
zero. To address this we will use the following rule based on the DICE group
https://github.com/dice-group/gerbil/wiki/Precision,-Recall-and-F1-measure:
If TP, FP, and FN are all 0, then PPV, sensitivity, and F1 will be defined to
be 1. If TP are 0 and FP + FN > 0, then PPV, sensitivity, and F1 are all
defined to be 0.
Value
confusion_matrix returns a data.frame with columns
-
-
-
Examples
# Example 1: known truth and prediction status
df <-
data.frame(
truth = c(1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0)
, pred = c(1, 1, 1, 1, 1, 1, 0, 0, 1, 0, 0, 0)
)
confusion_matrix(df$truth, df$pred, thresholds = 1)
# Example 2: Use with a logistic regression model
mod <- glm(
formula = spam ~ word_freq_our + word_freq_over + capital_run_length_total
, data = spambase
, family = binomial()
)
confusion_matrix(mod)
confusion_matrix(mod, thresholds = 0.5)
dewittpe/qwraps2 documentation built on Jan. 4, 2024, 1:59 p.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.
View source: R/confusion_matrix.R
| confusion_matrix | R Documentation |
Confusion Matrices (Contingency Tables)
Description
Construction of confusion matrices, accuracy, sensitivity, specificity, confidence intervals (Wilson's method and (optional bootstrapping)).
Usage
confusion_matrix(
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## Default S3 method:
confusion_matrix(
truth,
predicted,
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'formula'
confusion_matrix(
formula,
data = parent.frame(),
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'glm'
confusion_matrix(
x,
...,
thresholds = NULL,
confint_method = "logit",
alpha = getOption("qwraps2_alpha", 0.05)
)
## S3 method for class 'qwraps2_confusion_matrix'
print(x, ...)
Arguments
... |
pass through |
thresholds |
a numeric vector of thresholds to be used to define the
confusion matrix (one threshold) or matrices (two or more thresholds). If
|
confint_method |
character string denoting if the logit (default), binomial, or Wilson Score method for deriving confidence intervals |
alpha |
alpha level for 100 * (1 - alpha)% confidence intervals |
truth |
a integer vector with the values |
predicted |
a numeric vector. See Details. |
formula |
column (known) ~ row (test) for building the confusion matrix |
data |
environment containing the variables listed in the formula |
x |
a |
Details
The confusion matrix:
| True | Condition | ||
| + | - | ||
| Predicted Condition | + | TP | FP |
| Predicted Condition | - | FN | TN |
where
FN: False Negative = truth = 1 & prediction < threshold,
FP: False Positive = truth = 0 & prediction >= threshold,
TN: True Negative = truth = 0 & prediction < threshold, and
TP: True Positive = truth = 1 & prediction >= threshold.
The statistics returned in the stats element are:
accuracy = (TP + TN) / (TP + TN + FP + FN)
sensitivity, aka true positive rate = TP / (TP + FN)
specificity, aka true negative rate = TN / (TN + FP)
positive predictive value (PPV), aka precision = TP / (TP + FP)
negative predictive value (NPV) = TN / (TN + FN)
false negative rate (FNR) = 1 - Sensitivity
false positive rate (FPR) = 1 - Specificity
false discovery rate (FDR) = 1 - PPV
false omission rate (FOR) = 1 - NPV
F1 score
Matthews Correlation Coefficient (MCC) = ((TP * TN) - (FP * FN)) / sqrt((TP + FP) (TP+FN) (TN+FP) (TN+FN))
Synonyms for the statistics:
Sensitivity: true positive rate (TPR), recall, hit rate
Specificity: true negative rate (TNR), selectivity
PPV: precision
FNR: miss rate
Sensitivity and PPV could, in some cases, be indeterminate due to division by zero. To address this we will use the following rule based on the DICE group https://github.com/dice-group/gerbil/wiki/Precision,-Recall-and-F1-measure: If TP, FP, and FN are all 0, then PPV, sensitivity, and F1 will be defined to be 1. If TP are 0 and FP + FN > 0, then PPV, sensitivity, and F1 are all defined to be 0.
Value
confusion_matrix returns a data.frame with columns
Examples
# Example 1: known truth and prediction status
df <-
data.frame(
truth = c(1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0)
, pred = c(1, 1, 1, 1, 1, 1, 0, 0, 1, 0, 0, 0)
)
confusion_matrix(df$truth, df$pred, thresholds = 1)
# Example 2: Use with a logistic regression model
mod <- glm(
formula = spam ~ word_freq_our + word_freq_over + capital_run_length_total
, data = spambase
, family = binomial()
)
confusion_matrix(mod)
confusion_matrix(mod, thresholds = 0.5)
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.