statsmodels.stats.weightstats.DescrStatsW.ztest_mean¶
method
-
DescrStatsW.
ztest_mean
(value=0, alternative='two-sided')[source]¶ z-test of Null hypothesis that mean is equal to value.
The alternative hypothesis H1 is defined by the following ‘two-sided’: H1: mean not equal to value ‘larger’ : H1: mean larger than value ‘smaller’ : H1: mean smaller than value
- Parameters
- valuefloat or array
the hypothesized value for the mean
- alternativestring
The alternative hypothesis, H1, has to be one of the following
‘two-sided’: H1: mean not equal to value (default) ‘larger’ : H1: mean larger than value ‘smaller’ : H1: mean smaller than value
- Returns
- tstatfloat
test statisic
- pvaluefloat
pvalue of the t-test
Notes
This uses the same degrees of freedom correction as the t-test in the calculation of the standard error of the mean, i.e it uses (sum_weights - 1) instead of sum_weights in the denominator. See Examples below for the difference.
Examples
z-test on a proportion, with 20 observations, 15 of those are our event
>>> import statsmodels.api as sm >>> x1 = [0, 1] >>> w1 = [5, 15] >>> d1 = sm.stats.DescrStatsW(x1, w1) >>> d1.ztest_mean(0.5) (2.5166114784235836, 0.011848940928347452)
This differs from the proportions_ztest because of the degrees of freedom correction: >>> sm.stats.proportions_ztest(15, 20.0, value=0.5) (2.5819888974716112, 0.009823274507519247).
We can replicate the results from
proportions_ztest
if we increase the weights to have artificially one more observation:>>> sm.stats.DescrStatsW(x1, np.array(w1)*21./20).ztest_mean(0.5) (2.5819888974716116, 0.0098232745075192366)