Metadata-Version: 2.1
Name: monotonic-binning
Version: 0.0.1
Summary: Monotonic Variable Binning by WOE
Home-page: https://github.com/jstephenj14/Monotonic-WOE-Binning-Algorithm
Author: John Selvam
Author-email: jstephenj14@gmail.com
License: UNKNOWN
Description: # Monotonic-WOE-Binning-Algorithm
        
        _This algorithm is based on the excellent paper by Mironchyk and Tchistiakov (2017) named "Monotone	optimal	binning	algorithm for credit risk modeling"._
        
        ### How to use
        
        1. pip install monotonic_binning: `pip install -i https://test.pypi.org/simple/simple/ monotonic-binning`  
        2. Import monotonic_woe_binning: `from monotonic_binning import monotonic_woe_binning as bin`
        3. Use `fit` and `transform` to bin variables for train and test datasets respectively
        
        ### Demo Run Details
        
        The `demo_run.py` file available under `tests/` uses German credit card data from [Penn State's online course](https://online.stat.psu.edu/stat508/resource/analysis/gcd) and gives an overview of how to use the package.
        
        ### Summary of Monotonic WOE 
        
        The weight-of-evidence (WOE) method of evaluating strength of predictors is an understated one in the field of analytics.
        While it is standard fare in credit risk modelling, it is under-utilized in other settings though its formulation makes it
        generic enough for use in other domains too. The WOE method primarily aims to bin variables into buckets that deliver the most
        information to a potential classification model. Quite often, WOE binning methods measure effectiveness of such bins using Information Value
        or IV. For a more detailed introduction to WOE and IV, [this article](http://ucanalytics.com/blogs/information-value-and-weight-of-evidencebanking-case/)
        is a useful read. 
        
        In the world of credit risk modelling, regulatory oversight often requires that the variables that go into models
        are split into bins 
        
        - whose weight of evidence (WOE) values maintain a monotonic relationship with the 1/0 variable (loan default or not default for example.)
        - are reasonably sized and large enough to be respresentative of population segments, and
        - maximize the IV value of the given variable in the process of this binning. 
        
        To exemplify the constraints such a problem, consider a simple dataset containing age and a default indicator (1 if defaulted, 0 if not).
        The following is a possible scenario in which the variable is binned into three groups in such a manner that their WOE values decrease monotomically
        as the ages of customers increase. 
        
        <a href="https://drive.google.com/uc?export=view&id=10NHDsJQbZRgO3QQGK2dMkoAmzJxtQR_A"><img src="https://drive.google.com/uc?export=view&id=10NHDsJQbZRgO3QQGK2dMkoAmzJxtQR_A" style="width: 500px; max-width: 100%; height: auto" title="WOE Table" /></a>
        
        The WOE is derived in such a manner that as the WOE value increases, the default rate decreases. So we can infer 
        that younger customers are more likely to default in comparison to older customers.
        
        Arriving at the perfect bin cutoffs to meet all three requirements discussed earlier is a non-trivial exercise. Most statistical software
        provide this type of optimal discretization of interval variables. R's [smbinning package](https://cran.r-project.org/web/packages/smbinning/smbinning.pdf)
        and SAS' [proc transreg](https://statcompute.wordpress.com/2017/09/24/granular-monotonic-binning-in-sas/) are two such examples. To my knowledge, Python's solutions to this problem are fairly sparse. 
        
        This package is an attempt to complement already exhaustive packages like [scorecardpy](https://github.com/ShichenXie/scorecardpy) with the capability to bin variables with monotonic WOE.
        
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Requires-Python: >=3.6
Description-Content-Type: text/markdown
