Variance Inflation Factor (VIF) 方差膨胀因子解释_附python脚本

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Colinearity is the state where two variables are highly correlated and contain similiar information about the variance within a given dataset. To detect colinearity among variables, simply create a correlation matrix and find variables with large absolute values. In R use the corr function and in python this can by accomplished by using numpy's corrcoeffunction.

Multicolinearity on the other hand is more troublesome to detect because it emerges when three or more variables, which are highly correlated, are included within a model. To make matters worst multicolinearity can emerge even when isolated pairs of variables are not colinear.

A common R function used for testing regression assumptions and specifically multicolinearity is "VIF()" and unlike many statistical concepts, its formula is straightforward:

$$ V.I.F. = 1 / (1 - R^2). $$

The Variance Inflation Factor (VIF) is a measure of colinearity among predictor variables within a multiple regression. It is calculated by taking the the ratio of the variance of all a given model's betas divide by the variane of a single beta if it were fit alone.

Steps for Implementing VIF

  1. Run a multiple regression.
  2. Calculate the VIF factors.
  3. Inspect the factors for each predictor variable, if the VIF is between 5-10, multicolinearity is likely present and you should consider dropping the variable.
#Imports
import pandas as pd
import numpy as np from patsy import dmatrices import statsmodels.api as sm from statsmodels.stats.outliers_influence import variance_inflation_factor df = pd.read_csv('loan.csv') df.dropna() df = df._get_numeric_data() #drop non-numeric cols df.head() 
  id member_id loan_amnt funded_amnt funded_amnt_inv int_rate installment annual_inc dti delinq_2yrs ... total_bal_il il_util open_rv_12m open_rv_24m max_bal_bc all_util total_rev_hi_lim inq_fi total_cu_tl inq_last_12m
0 1077501 1296599 5000.0 5000.0 4975.0 10.65 162.87 24000.0 27.65 0.0 ... NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN
1 1077430 1314167 2500.0 2500.0 2500.0 15.27 59.83 30000.0 1.00 0.0 ... NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN
2 1077175 1313524 2400.0 2400.0 2400.0 15.96 84.33 12252.0 8.72 0.0 ... NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN
3 1076863 1277178 10000.0 10000.0 10000.0 13.49 339.31 49200.0 20.00 0.0 ... NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN
4 1075358 1311748 3000.0 3000.0 3000.0 12.69 67.79 80000.0 17.94 0.0 ... NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN

5 rows × 51 columns

df = df[['annual_inc','loan_amnt', 'funded_amnt','annual_inc','dti']].dropna() #subset the dataframe 

Step 1: Run a multiple regression

%%capture
#gather features
features = "+".join(df.columns - ["annual_inc"]) # get y and X dataframes based on this regression: y, X = dmatrices('annual_inc ~' + features, df, return_type='dataframe') 

Step 2: Calculate VIF Factors

# For each X, calculate VIF and save in dataframe
vif = pd.DataFrame() vif["VIF Factor"] = [variance_inflation_factor(X.values, i) for i in range(X.shape[1])] vif["features"] = X.columns 

Step 3: Inspect VIF Factors

vif.round(1) 
  VIF Factor features
0 5.1 Intercept
1 1.0 dti
2 678.4 funded_amnt
3 678.4 loan_amnt

As expected, the total funded amount for the loan and the amount of the loan have a high variance inflation factor because they "explain" the same variance within this dataset. We would need to discard one of these variables before moving on to model building or risk building a model with high multicolinearity.

 

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转载于:https://www.cnblogs.com/webRobot/p/10889525.html

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