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The scipy.stats library has functions to find the mean and median of a fitted distribution but not mode.

If I have the parameters of a distribution after fitting to data, how can I find the mode of the fitted distribution?

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1 Answer 1

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If I don't get your wrong, you want to find the mode of fitted distributions instead of mode of a given data. Basically, we can do it with following 3 steps.

Step 1: generate a dataset from a distribution

from scipy import stats
from scipy.optimize import minimize
# generate a norm data with 0 mean and 1 variance
data = stats.norm.rvs(loc= 0,scale = 1,size = 100)
data[0:5]

Output:

array([1.76405235, 0.40015721, 0.97873798, 2.2408932 , 1.86755799])

Step 2: fit the parameters

# fit the parameters of norm distribution
params = stats.norm.fit(data)
params

Output:

(0.059808015534485, 1.0078822447165796)

Note that there are 2 parameters for stats.norm, i.e. loc and scale. For different dist in scipy.stats, the parameters are different. I think it's convenient to store parameter in a tuple and then unpack it in the next step.

Step 3: get the mode(maximum of your density function) of fitted distribution

# continuous case
def your_density(x):
    return -stats.norm.pdf(x,*paras)
minimize(your_density,0).x

Output:

0.05980794

Note that a norm distribution has mode equals to mean. It's a coincidence in this example.

One more thing is that scipy treats continuous dist and discrete dist different(they have different father classes), you can do the same thing with following code on discrete dists.

## discrete dist, example for poisson
x = np.arange(0,100) # the range of x should be specificied
x[stats.poisson.pmf(x,mu = 2).argmax()] # find the x value to maximize pmf

Out:

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You can it try with your own data and distributions!

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  • Thanks for the detailed answer! I understand the logic you have used here. But I am not sure why in my case the pdf function is always returning me 0. I have a gamma distribution fitted to data. Other functions like ppf, mean and var are returning the correct values but pdf returns me 0. And if i try to minimize it, the solution returned is the initial starting point of optimization. Not sure what's going wrong here. Commented Jan 10, 2020 at 6:08
  • @AdnanTamimi show me your data and code, I think you maybe misuse the .pdf function
    – Travis
    Commented Jan 10, 2020 at 6:12
  • The parameters of the distribution p = [1.0903919789648953, 186586.34341665, 102313.74542487558] from scipy.stats import gamma def your_density(x): return -gamma.pdf(x,*p) minimize(your_density, 0).x Commented Jan 10, 2020 at 6:22
  • Unable to post the data here due to character limitation Commented Jan 10, 2020 at 6:25
  • Your x range should be larger than scale, which means x0 should larger than 186586.See
    – Travis
    Commented Jan 10, 2020 at 6:52

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