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I need the equivalent to Matlab's gaussmf function in Python but I can't find it.

Currently I simply reimplemented it:

def gauss(x, sigma=1, mean=0, scale=1):
    return scale * numpy.exp(-numpy.square(x - mean) / (2 * sigma ** 2))

But it would feel better to just use a library function, preferably from numpy or scipy so I can use it on arrays like x (1-dimensional numpy.ndarray) above :-).

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Why would you feel better ? Your function is good. If you want to include it in scipy, try to fill a request with your code ! –  J. Martinot-Lagarde Aug 21 '13 at 12:12

2 Answers 2

up vote 2 down vote accepted

The closest you're going to get in terms of a library function is probably scipy.signal.gaussian.

It's a one-liner function though - what's wrong with implementing it yourself?

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Perfect! That's actually exactly what I needed :D, since I'm using the gaussian for smoothing a function :-). Well there's not exactly something wrong with implementing it myself, but I like to stick to functions that already exist, it simply reduces code size and thereby probability of bugs, even if it's just one line :-). Plus, it makes me become more aware of standard libraries that might help on other occasions as well :-). Thanks a lot! –  zabbarob Aug 21 '13 at 20:24

Is this what you're looking for? http://docs.scipy.org/doc/scipy/reference/generated/scipy.stats.norm.html

Random sampling http://docs.scipy.org/doc/numpy/reference/generated/numpy.random.normal.html#numpy.random.normal

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it get's close, but not quite. i had to transform the result with: numpy.power(scipy.stats.norm.pdf(numpy.r_[-100:100])*sqrt(2.0*numpy.pi), 1/(25**2)). and even then it simply jumps to zero at +/- 39 indices from the middle (index 61 and 139). compared to calling gauss(numpy.r_[-100:100],25.0). what i want is simply the gaussian function - en.wikipedia.org/wiki/Gaussian_function; but thanks for the answer anyway :-) –  zabbarob Aug 21 '13 at 10:01
    
>>> stats.norm.pdf(np.r_[-100:100], loc=0, scale=25.0).min() 5.3532090305954148e-06 –  user333700 Aug 21 '13 at 15:03
    
the gauss function in the question is not a density function like scipy.stats.norm.pdf because it is missing a normalization factor –  user333700 Aug 21 '13 at 15:04

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