There are 2 types of Generalized Linear Models:
1. Log-Linear Regression, also known as Poisson Regression
2. Logistic Regression
How to implement the Poisson Regression in Python for Price Elasticity prediction?
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1Is this somewhat what you're looking for statsmodels.sourceforge.net/devel/glm.html? Also, way too broad.– Ilja EveriläJun 21, 2016 at 10:29
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The link you shared has the "Poisson distribution". I was looking for "Poisson Regression". It is there in R, but how to implement it in Python ?– User456898Jun 21, 2016 at 10:33
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1I am not looking for Logistic Regression. Wanted to know about Log-Linear (Poisson) Regression in Python.– User456898Jun 21, 2016 at 10:37
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@IljaEverilä sure logistic regression will help a lot in a poisson regression problem. Don't add comments that make no sense. Better stay silent– AltonsJun 21, 2016 at 10:46
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@Altons that's true, removed.– Ilja EveriläJun 21, 2016 at 10:47
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2 Answers
Have a look at the statmodels package in python.
Here is an example
A bit more of input to avoid the link only answer
Assumming you know python here is an extract of the example I mentioned earlier.
import numpy as np
import pandas as pd
from statsmodels.genmod.generalized_estimating_equations import GEE
from statsmodels.genmod.cov_struct import (Exchangeable,
Independence,Autoregressive)
from statsmodels.genmod.families import Poisson
pandas will hold the data frame with the data you want to use to feed your poisson model.
statsmodels package contains large family of statistical models such as Linear, probit, poisson etc. from here you will import the Poisson family model (hint: see last import)
The way you fit your model is as follow (assuming your dependent variable is called y and your IV are age, trt and base):
fam = Poisson()
ind = Independence()
model1 = GEE.from_formula("y ~ age + trt + base", "subject", data, cov_struct=ind, family=fam)
result1 = model1.fit()
print(result1.summary())
As I am not familiar with the nature of your problem I would suggest to have a look at negative binomial regression if you need to count data is well overdispersed. with High overdispersion your poisson assumptions may not hold.
Plethora of info for poisson regression in R - just google it.
Hope now this answer helps.
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Sorry I did not see these comments. "Subject" is a grouping variable. dependent variable is 'y'– AltonsMar 2, 2018 at 9:59
If I am not mistaken, @Altons' answer is for GEEs, which assume some sort of grouped structure. The common Poisson Regression (without a need for a group, such as "subject") is implemented as General Linear Model in statsmodels:
import patsy
import statsmodels as sm
from statsmodels.genmod.families import Poisson
fam = Poisson()
f = 'some_count ~ some_numeric_variable + C(some_categorical_variable)'
y, X = patsy.dmatrices(f, data, return_type='matrix')
p_model = sm.GLM(y, X, family=fam)
result = p_model.fit()
print(result.summary())
The variables used in the formula are just placeholders for variables in the DataFrame data.
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when to use "C" and when not? is it to be used on label-encoded and one-hot encoded columns too? Nov 24, 2022 at 13:28
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1C should be used if the variable type is categorical. This is usually the case for label-encoded and one-hot variables.– BenNov 25, 2022 at 16:06
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Thanks @Ben, can you point me to some documentation to learn more on writing these formulaes please?! Nov 28, 2022 at 7:14
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For anyone new to the statsmodels package, make sure you change line 2 to "import statsmodels.api as sm". It will error without the ".api".– SamDec 5, 2022 at 22:22