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def exponpow(*args, **kwds)
An exponential power continuous random variable.
As an instance of the `rv_continuous` class, `exponpow` object inherits from it
a collection of generic methods (see below for the full list),
and completes them with details specific for this particular distribution.
Methods
-------
rvs(b, loc=0, scale=1, size=1, random_state=None)
Random variates.
pdf(x, b, loc=0, scale=1)
Probability density function.
logpdf(x, b, loc=0, scale=1)
Log of the probability density function.
cdf(x, b, loc=0, scale=1)
Cumulative distribution function.
logcdf(x, b, loc=0, scale=1)
Log of the cumulative distribution function.
sf(x, b, loc=0, scale=1)
Survival function (also defined as ``1 - cdf``, but `sf` is sometimes more accurate).
logsf(x, b, loc=0, scale=1)
Log of the survival function.
ppf(q, b, loc=0, scale=1)
Percent point function (inverse of ``cdf`` --- percentiles).
isf(q, b, loc=0, scale=1)
Inverse survival function (inverse of ``sf``).
moment(order, b, loc=0, scale=1)
Non-central moment of the specified order.
stats(b, loc=0, scale=1, moments='mv')
Mean('m'), variance('v'), skew('s'), and/or kurtosis('k').
entropy(b, loc=0, scale=1)
(Differential) entropy of the RV.
fit(data)
Parameter estimates for generic data.
See `scipy.stats.rv_continuous.fit <https://docs.scipy.org/doc/scipy/reference/generated/scipy.stats.rv_continuous.fit.html#scipy.stats.rv_continuous.fit>`__ for detailed documentation of the
keyword arguments.
expect(func, args=(b,), loc=0, scale=1, lb=None, ub=None, conditional=False, **kwds)
Expected value of a function (of one argument) with respect to the distribution.
median(b, loc=0, scale=1)
Median of the distribution.
mean(b, loc=0, scale=1)
Mean of the distribution.
var(b, loc=0, scale=1)
Variance of the distribution.
std(b, loc=0, scale=1)
Standard deviation of the distribution.
interval(confidence, b, loc=0, scale=1)
Confidence interval with equal areas around the median.
Notes
-----
The probability density function for `exponpow` is:
.. math::
f(x, b) = b x^{b-1} \exp(1 + x^b - \exp(x^b))
for :math:`x \ge 0`, :math:`b > 0`. Note that this is a different
distribution from the exponential power distribution that is also known
under the names "generalized normal" or "generalized Gaussian".
`exponpow` takes ``b`` as a shape parameter for :math:`b`.
The probability density above is defined in the "standardized" form. To shift
and/or scale the distribution use the ``loc`` and ``scale`` parameters.
Specifically, ``exponpow.pdf(x, b, loc, scale)`` is identically
equivalent to ``exponpow.pdf(y, b) / scale`` with
``y = (x - loc) / scale``. Note that shifting the location of a distribution
does not make it a "noncentral" distribution; noncentral generalizations of
some distributions are available in separate classes.
References
----------
http://www.math.wm.edu/~leemis/chart/UDR/PDFs/Exponentialpower.pdf
Examples
--------
>>> import numpy as np
>>> from scipy.stats import exponpow
>>> import matplotlib.pyplot as plt
>>> fig, ax = plt.subplots(1, 1)
Calculate the first four moments:
>>> b = 2.7
>>> mean, var, skew, kurt = exponpow.stats(b, moments='mvsk')
Display the probability density function (``pdf``):
>>> x = np.linspace(exponpow.ppf(0.01, b),
... exponpow.ppf(0.99, b), 100)
>>> ax.plot(x, exponpow.pdf(x, b),
... 'r-', lw=5, alpha=0.6, label='exponpow pdf')
Alternatively, the distribution object can be called (as a function)
to fix the shape, location and scale parameters. This returns a "frozen"
RV object holding the given parameters fixed.
Freeze the distribution and display the frozen ``pdf``:
>>> rv = exponpow(b)
>>> ax.plot(x, rv.pdf(x), 'k-', lw=2, label='frozen pdf')
Check accuracy of ``cdf`` and ``ppf``:
>>> vals = exponpow.ppf([0.001, 0.5, 0.999], b)
>>> np.allclose([0.001, 0.5, 0.999], exponpow.cdf(vals, b))
True
Generate random numbers:
>>> r = exponpow.rvs(b, size=1000)
And compare the histogram:
>>> ax.hist(r, density=True, bins='auto', histtype='stepfilled', alpha=0.2)
>>> ax.set_xlim([x[0], x[-1]])
>>> ax.legend(loc='best', frameon=False)
>>> plt.show()
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