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numpy.average() has a weights option, but numpy.std() does not. Does anyone have suggestions for a workaround?

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up vote 54 down vote accepted

How about the following short "manual calculation"?

def weighted_avg_and_std(values, weights):
    Return the weighted average and standard deviation.

    values, weights -- Numpy ndarrays with the same shape.
    average = numpy.average(values, weights=weights)
    variance = numpy.average((values-average)**2, weights=weights)  # Fast and numerically precise
    return (average, math.sqrt(variance))
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Why not use numpy.average again for the variance? – user2357112 Aug 7 '13 at 1:26
Just wanted to point out that this will give the biased variance. For small sample sizes, you may want to re-scale the variance (before sqrt) to get the unbiased variance. See… – Corey Mar 7 '14 at 5:17
Yeah, the unbiased variance estimator would be slightly different. This answer gives the standard deviation, since the question asks for a weighted version of numpy.std(). – EOL Sep 12 '14 at 9:58

There doesn't appear to be such a function in numpy/scipy yet, but there is a ticket proposing this added functionality. Included there you will find which implements weighted standard deviations.

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There is some functionality in statsmodels which can calculate weighted statistics: statsmodels.stats.weightstats.DescrStatsW:

from statsmodels.stats.weightstats import DescrStatsW

array = np.array([1,2,1,2,1,2,1,3])
weights = np.ones_like(array)
weights[3] = 100

weighted_stats = DescrStatsW(array, weights=weights, ddof=0)

weighted_stats.mean      # weighted mean of data (equivalent to np.average(array, weights=weights))
# 1.97196261682243

weighted_stats.std       # standard deviation with default degrees of freedom correction
# 0.21434289609681711

weighted_stats.std_mean  # standard deviation of weighted mean
# 0.020818822467555047

weighted_stats.var       # variance with default degrees of freedom correction
# 0.045942877107170932

and the nice feature of this class is that if you want to calculate different statistical properties subsequent calls will be very fast because already calculated (even intermediate) results are saved.

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