A Python implementation of Synthetic Minority Over-Sampling Technique for Regression with Gaussian Noise (SMOGN). Conducts the Synthetic Minority Over-Sampling Technique for Regression (SMOTER) with traditional interpolation, as well as with the introduction of Gaussian Noise (SMOTER-GN). Selects between the two over-sampling techniques by the KNN distances underlying a given observation. If the distance is close enough, SMOTER is applied. If too far away, SMOTER-GN is applied. Useful for prediction problems where regression is applicable, but the values in the interest of predicting are rare or uncommon. This can also serve as a useful alternative to log transforming a skewed response variable, especially if generating synthetic data is also of interest.
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The only open-source Python supported version of Synthetic Minority Over-Sampling Technique for Regression.
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Supports Pandas DataFrame inputs containing mixed data types, auto distance metric selection by data type, and optional auto removal of missing values.
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Flexible inputs available to control the areas of interest within a continuous response variable and friendly parameters for over-sampling synthetic data.
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Purely Pythonic, developed for consistency, maintainability, and future improvement, no foreign function calls to C or Fortran, as contained in original R implementation.
- Python 3
- NumPy
- Pandas
## install pypi release
pip install smogn
## install developer version
pip install git+https://github.com/nickkunz/smogn.git
## load libraries
import smogn
import pandas
## load data
housing = pandas.read_csv(
## http://jse.amstat.org/v19n3/decock.pdf
"https://raw.githubusercontent.com/nickkunz/smogn/master/data/housing.csv"
)
## conduct smogn
housing_smogn = smogn.smoter(
data = housing,
y = "SalePrice"
)
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de Santi, N. S., Rodrigues, N. V., Montero-Dorta, A. D., Abramo, L. R., Tucci, B., & Artale, M. C. (2022). Mimicking the Halo-Galaxy Connection Using Machine Learning. arXiv preprint:2201.06054. https://arxiv.org/abs/2201.06054.
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Gangapurwala, S., Geisert, M., Orsolino, R., Fallon, M., & Havoutis, I. (2022). RLOC: Terrain-Aware Legged Locomotion Using Reinforcement Learning and Optimal Control. arXiv preprint:2201.03094. https://arxiv.org/abs/2012.03094.
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Wang, B., Spessa, A., Feng, P., Hou, X., Yue, C., Luo, J.-J., Ciais, P., Waters, C., Cowie, A., Nolan, R. H., Nikonovas, T., Jin, H., Walshaw, H., Wei, J., Guo, X., Liu, D. L., & Yu, Q. (2021). Extreme Fire Weather Is The Major Driver Of Severe Bushfires In Southeast Australia. Science Bulletin, 67(6), 655-664. https://doi.org/10.1016/j.scib.2021.10.001.
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Agrawal, A., & Petersen, M. R. (2021). Detecting Arsenic Contamination Using Satellite Imagery and Machine Learning. Toxics, 9(12), 333. https://doi.org/10.3390/toxics9120333.
@software{smogn,
author = {Nicholas Kunz},
title = {{SMOGN}: Synthetic Minority Over-Sampling Technique for Regression with Gaussian Noise},
year = {2020},
publisher = {PyPI},
version = {v0.1.2},
url = {https://pypi.org/project/smogn/},
copyright = {GPL v3.0}
}
SMOGN is open for improvements and maintenance. Your help is valued to make the package better for everyone.
© Nick Kunz, 2022. Licensed under the General Public License v3.0 (GPLv3).
Branco, P., Torgo, L., Ribeiro, R. (2017). SMOGN: A Pre-Processing Approach for Imbalanced Regression. Proceedings of Machine Learning Research, 74:36-50. http://proceedings.mlr.press/v74/branco17a/branco17a.pdf.