When we train a ctr(click through rate) model, sometimes we need calcute the real ctr from the history data, like this

    ctr   =  ----------------

We know that, if the number of impressions is too small, the calculted ctr is not real. So we always set a threshold to filter out the large enough impressions.

But we know that the higher impressions, the higher confidence for the ctr. Then my question is that: Is there a impressions-normalized statistic method to calculate the ctr?


  • did you get how to normalize the clicks – Lalit Vyas Jun 15 at 17:27

You probably need a representation of confidence interval for your estimated ctr. Wilson score interval is a good one to try.

Wilson score interval

You need below stats to calculate the confidence score:

  • \hat p is the observed ctr (fraction of #clicked vs #impressions)
  • n is the total number of impressions
  • zα/2 is the (1-α/2) quantile of the standard normal distribution

A simple implementation in python is shown below, I use z(1-α/2)=1.96 which corresponds to a 95% confidence interval. I attached 3 test results at the end of the code.

# clicks      # impressions       # conf interval
2             10                  (0.07, 0.45)
20            100                 (0.14, 0.27)
200           1000                (0.18, 0.22)

Now you can set up some threshold to use the calculated confidence interval.

from math import sqrt

def confidence(clicks, impressions):
    n = impressions
    if n == 0: return 0
    z = 1.96 #1.96 -> 95% confidence
    phat = float(clicks) / n
    denorm = 1. + (z*z/n)
    enum1 = phat + z*z/(2*n)
    enum2 = z * sqrt(phat*(1-phat)/n + z*z/(4*n*n))
    return (enum1-enum2)/denorm, (enum1+enum2)/denorm

def wilson(clicks, impressions):
    if impressions == 0:
        return 0
        return confidence(clicks, impressions)

if __name__ == '__main__':
    print wilson(2,10)
    print wilson(20,100)
    print wilson(200,1000)

(0.07048879557839793, 0.4518041980521754)
(0.14384999046998084, 0.27112660859398174)
(0.1805388068716823, 0.22099327100894336)
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  • 1
    Thanks for your answer. But I want to know if there is a impressions-normalized statistic method, not the confidence for the estimated ctr. For example, this method may looks like this: #(click)*2/(#(impressions)+avg(#impressions)) – Tim Oct 25 '12 at 6:38
  • 2
    Actually I am not sure I understand what you want and why you want that way. How about a Bayesian estimator? Or something like the IMDB score? en.wikipedia.org/wiki/Bayes_estimator – greeness Oct 25 '12 at 7:27
  • 1
    Doesn't z = 1.6 corresponds to 90% confidence? Google helper: google.ru/search?q=z+values+confidence, article for dummies :-): dummies.com/how-to/content/… – skaurus Jun 8 '16 at 13:13
  • 1
    You are right. Should be 1.96 for 95% confidence.fixed. – greeness Jun 8 '16 at 16:45

If you treat this as a binomial parameter, you can do Bayesian estimation. If your prior on ctr is uniform (a Beta distribution with parameters (1,1)) then your posterior is Beta(1+#click, 1+#impressions-#click). Your posterior mean is #click+1 / #impressions+2 if you want a single summary statistic of this posterior, but you probably don't, and here's why:

I don't know what your method for determining whether ctr is high enough, but let's say you're interested in everything with ctr > 0.9. You can then use the cumulative density function of the beta distribution to look at what proportion of probability mass is over the 0.9 threshold (this will just be 1 - the cdf at 0.9). In this way, your threshold will naturally incorporate uncertainty about the estimate because of limited sample size.

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There are many ways to calculate this confidence interval. An alternative to the Wilson Score is the Clopper-Perrson interval, which I found useful in spreadsheets.

Upper Bound Equation

Lower Bound Equation


  • B() is the the Inverse Beta Distribution
  • alpha is the confidence level error (e.g for 95% confidence-level, alpha is 5%)
  • n is the number of samples (e.g. impressions)
  • x is the number of successes (e.g. clicks)

In Excel an implementation for B() is provided by the BETA.INV formula.

There is no equivalent formula for B() in Google Sheets, but a Google Apps Script custom function can be adapted from the JavaScript Statistical Library (e.g search github for jstat)

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