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I want to create a normal distributed array with numpy.random.normal that only consists of positive values. For example the following illustrates that it sometimes gives back negative values and sometimes positive. How can I modify it so it will only gives back positive values?

>>> import numpy
>>> numpy.random.normal(10,8,3)
array([ -4.98781629,  20.12995344,   4.7284051 ])
>>> numpy.random.normal(10,8,3)
array([ 17.71918829,  15.97617052,   1.2328115 ])
>>> 

I guess I could solve it somehow like this:

myList = numpy.random.normal(10,8,3)

while item in myList <0:
       # run again until all items are positive values
       myList = numpy.random.normal(10,8,3)
share|improve this question
    
What do you mean by 'only give back positive values'? What do you want it to do if it would return a negative value? – Patashu May 1 '13 at 3:15
    
Well I would like to modify the code so it will only give back positive values. – ustroetz May 1 '13 at 3:16
1  
By definition, a normal distribution extends over all possible values, positive and negative. You cannot reconcile 'normal distribution' with 'only positive values', so my question to you is... what do you REALLY want? – Patashu May 1 '13 at 3:17
1  
Normal distributions extend over all possible values, positive and negative. If you prevent it from returning negative values it is by definition no longer a normal distribution. So whatever distribution you feed to your function by definition cannot be negative. With the above in mind, what distribution do you want? – Patashu May 1 '13 at 3:25
1  
The binomial distribution is similar to normal distribution, but discrete, and ranges only over positive values: en.wikipedia.org/wiki/Binomial_distribution – Patashu May 1 '13 at 3:29
up vote 4 down vote accepted

The normal distribution, by definition, extends from -inf to +inf so what you are asking for doesn't make sense mathematically.

You can take a normal distribution and take the absolute value to "clip" to positive values, or just discard negative values, but you should understand that it will no longer be a normal distribution.

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You can offset your entire array by the lowest value (left most) of the array. What you get may not be truly "normal distribution", but within the scope of your work, dealing with finite array, you can ensure that the values are positive and fits under a bell curve.

>>> mu,sigma = (0,1.0)
>>> s = np.random.normal(mu, 1.0, 100)
>>> s
array([-0.58017653,  0.50991809, -1.13431539, -2.34436721, -1.20175652,
        0.56225648,  0.66032708, -0.98493441,  2.72538462, -1.28928887])
>>> np.min(s)
-2.3443672118476226
>>> abs(np.min(s))
2.3443672118476226
>>> np.add(s,abs(np.min(s)))
array([ 1.76419069,  2.85428531,  1.21005182,  0.        ,  1.14261069,
        2.90662369,  3.00469429,  1.3594328 ,  5.06975183,  1.05507835])
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I assume that what you mean is that you want to modify the probability density such that it is the same shape as normal in the positive range, and zero in negative. That is a pretty common practical case. In such case, you cannot simply take the absolute value of generated normal random variables. Instead, you have to generate a new independent normally distributed number until you come up with a positive one. One way to do that is recursively, see below.

import numpy as np def PosNormal(mean, sigma): x = nr.normal(xbar,delta_xbar,1) return(x if x>=0 else PosNormal(mean,sigma))

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