Computes best specificity where sensitivity is >= specified value.
Source:R/metrics.R
metric_specificity_at_sensitivity.RdSensitivity measures the proportion of actual positives that are correctly
identified as such (tp / (tp + fn)).
Specificity measures the proportion of actual negatives that are correctly
identified as such (tn / (tn + fp)).
This metric creates four local variables, true_positives,
true_negatives, false_positives and false_negatives that are used to
compute the specificity at the given sensitivity. The threshold for the
given sensitivity value is computed and used to evaluate the corresponding
specificity.
If sample_weight is NULL, weights default to 1.
Use sample_weight of 0 to mask values.
If class_id is specified, we calculate precision by considering only the
entries in the batch for which class_id is above the threshold
predictions, and computing the fraction of them for which class_id is
indeed a correct label.
For additional information about specificity and sensitivity, see the following.
Usage
metric_specificity_at_sensitivity(
...,
sensitivity,
num_thresholds = 200L,
class_id = NULL,
name = NULL,
dtype = NULL
)Arguments
- ...
For forward/backward compatability.
- sensitivity
A scalar value in range
[0, 1].- num_thresholds
(Optional) Defaults to 200. The number of thresholds to use for matching the given sensitivity.
- class_id
(Optional) Integer class ID for which we want binary metrics. This must be in the half-open interval
[0, num_classes), wherenum_classesis the last dimension of predictions.- name
(Optional) string name of the metric instance.
- dtype
(Optional) data type of the metric result.
Value
a Metric instance is returned. The Metric instance can be passed
directly to compile(metrics = ), or used as a standalone object. See
?Metric for example usage.
Usage
Standalone usage:
m <- metric_specificity_at_sensitivity(sensitivity = 0.5)
m$update_state(c(0, 0, 0, 1, 1),
c(0, 0.3, 0.8, 0.3, 0.8))
m$result()m$reset_state()
m$update_state(c(0, 0, 0, 1, 1),
c(0, 0.3, 0.8, 0.3, 0.8),
sample_weight = c(1, 1, 2, 2, 2))
m$result()Usage with compile() API:
model |> compile(
optimizer = 'sgd',
loss = 'binary_crossentropy',
metrics = list(metric_sensitivity_at_specificity())
)See also
Other confusion metrics: metric_auc() metric_false_negatives() metric_false_positives() metric_precision() metric_precision_at_recall() metric_recall() metric_recall_at_precision() metric_sensitivity_at_specificity() metric_true_negatives() metric_true_positives()
Other metrics: Metric() custom_metric() metric_auc() metric_binary_accuracy() metric_binary_crossentropy() metric_binary_focal_crossentropy() metric_binary_iou() metric_categorical_accuracy() metric_categorical_crossentropy() metric_categorical_focal_crossentropy() metric_categorical_hinge() metric_cosine_similarity() metric_f1_score() metric_false_negatives() metric_false_positives() metric_fbeta_score() metric_hinge() metric_huber() metric_iou() metric_kl_divergence() metric_log_cosh() metric_log_cosh_error() metric_mean() metric_mean_absolute_error() metric_mean_absolute_percentage_error() metric_mean_iou() metric_mean_squared_error() metric_mean_squared_logarithmic_error() metric_mean_wrapper() metric_one_hot_iou() metric_one_hot_mean_iou() metric_poisson() metric_precision() metric_precision_at_recall() metric_r2_score() metric_recall() metric_recall_at_precision() metric_root_mean_squared_error() metric_sensitivity_at_specificity() metric_sparse_categorical_accuracy() metric_sparse_categorical_crossentropy() metric_sparse_top_k_categorical_accuracy() metric_squared_hinge() metric_sum() metric_top_k_categorical_accuracy() metric_true_negatives() metric_true_positives()