Equal Error Rate in Python

Question

Could anybody tell me how could I compute Equal Error Rate(EER) from ROC Curve in python? In scikit-learn there is method to compute roc curve and auc but could not find the method to compute EER.

from sklearn.metrics import roc_curve, auc

ANSRWER:

I think I implemented myself.

The idea of ROC EER is the intersection point between a stright line joining (1,0) and (0,1) and the roc Curve. It is a only point where it intersects. For a straight line with a=1 and b=1, the equation would be x+y =1 (x/a +y/b =1.0) . So the intersection point would be the values of true positive rate (tpr) and false positive rate (fpr) which statisfies the following equation:

    x + y - 1.0 = 0.0

Thus implemented the method as:

 def compute_roc_EER(fpr, tpr):
    roc_EER = []
    cords = zip(fpr, tpr)
    for item in cords:
        item_fpr, item_tpr = item
        if item_tpr + item_fpr == 1.0:
            roc_EER.append((item_fpr, item_tpr))
assert(len(roc_EER) == 1.0)
return np.array(roc_EER)

So here one value is error rate and another value is accuracy.

May be somebody could help me to verify.

Answer 1

For any one else whom arrives here via a Google search. The Fran answer is incorrect as Gerhard points out. The correct code would be:

import numpy as np
from sklearn.metrics import roc_curve

fpr, tpr, threshold = roc_curve(y, y_pred, pos_label=1)
fnr = 1 - tpr
eer_threshold = threshold[np.nanargmin(np.absolute((fnr - fpr)))]

Note that this gets you the threshold at which the EER occurs not, the EER. The EER is defined as FPR = 1 - PTR = FNR. Thus to get the EER (the actual error rate) you could use the following:

EER = fpr[np.nanargmin(np.absolute((fnr - fpr)))]

as a sanity check the value should be close to

EER = fnr[np.nanargmin(np.absolute((fnr - fpr)))]

since this is an approximation.

Answer 2

Copying form How to compute Equal Error Rate (EER) on ROC by Changjiang:

from scipy.optimize import brentq
from scipy.interpolate import interp1d
from sklearn.metrics import roc_curve

fpr, tpr, thresholds = roc_curve(y, y_score, pos_label=1)

eer = brentq(lambda x : 1. - x - interp1d(fpr, tpr)(x), 0., 1.)
thresh = interp1d(fpr, thresholds)(eer)

That gave me correct EER value. Also remember that in the documentation it's written that y is True binary labels in range {0, 1} or {-1, 1}. If labels are not binary, pos_label should be explicitly given and y_score is Target scores, can either be probability estimates of the positive class, confidence values, or non-thresholded measure of decisions (as returned by “decision_function” on some classifiers).

Answer 3

Equal error rate (EER) is where your false pos rate (fpr) == false neg rate (fnr) [smaller is better]

using fpr, tpr and thresholds your are getting from roc sklearn computation, you can use this function to get EER:

def compute_eer(fpr,tpr,thresholds):
    """ Returns equal error rate (EER) and the corresponding threshold. """
    fnr = 1-tpr
    abs_diffs = np.abs(fpr - fnr)
    min_index = np.argmin(abs_diffs)
    eer = np.mean((fpr[min_index], fnr[min_index]))
    return eer, thresholds[min_index]

Answer 4

There's a reference code from a rather new paper AutoSpeech in their official code on Github. I guess this is one of the reliable ones.

https://github.com/VITA-Group/AutoSpeech/blob/master/utils.py#L84

def compute_eer(distances, labels):
    # Calculate evaluation metrics
    fprs, tprs, _ = roc_curve(labels, distances)
    eer = fprs[np.nanargmin(np.absolute((1 - tprs) - fprs))]
    return eer

Another option is using VoxCeleb1 unofficial baseline, this is linked from the official VoxCeleb1 page:

https://github.com/clovaai/voxceleb_trainer/blob/master/tuneThreshold.py#L13

But the function tuneThresholdfromScore in the link is not a simple one, then AutoSpeech might be better.

Answer 5

The EER is defined as FPR = 1 - PTR = FNR. This is wrong.

Since FPR= 1-TNR (True Negative Rate) and therefore, not equal to FNR.

Answer 6

To estimate the Equal Error Rate EER you look for the point within the ROC that makes the TPR value equal to FPR value, that is, TPR-FPR=0. In other words you look for the minimum point of abs(TPR-FPR)

1. First of all you need to estimate the ROC curve:

fpr, tpr, threshold = roc_curve(y, y_pred, pos_label=1)

2. To compute the EER in python you need only one line of code:

EER = threshold(np.argmin(abs(tpr-fpr)))