A Python Toolbox for Outlier Detection Thresholding
Project description
Deployment, Stats, & License
PyThresh is a comprehensive and scalable Python toolkit for thresholding outlier detection scores in univariate/multivariate data. It has been writen to work in tandem with PyOD and has similar syntax and data structures. However, it is not limited to this single library. PyThresh is meant to threshold scores generated by an outlier detection. It thresholds scores without the need to set a contamination level or have the user guess the amount of outliers that may exist in the dataset beforehand. These non-parametric methods were written to reduce the user’s input/guess work and rather rely on statistics instead to threshold outlier scores. For thresholding to be applied correctly, the outlier detection scores must follow this rule: the higher the score, the higher the probability that it is an outlier in the dataset. All threshold functions return a binary array where inliers and outliers are represented by a 0 and 1 respectively.
PyThresh includes more than 30 thresholding algorithms. These algorithms range from using simple statistical analysis like the Z-score to more complex mathematical methods that involve graph theory and topology.
Documentation & Citing
Visit PyThresh Docs for full documentation or see below for a quickstart installation and usage example.
To cite this work you can visit PyThresh Citation
Outlier Detection Thresholding with 7 Lines of Code:
# train the KNN detector
from pyod.models.knn import KNN
from pythresh.thresholds.clust import CLUST
clf = KNN()
clf.fit(X_train)
# get outlier scores
decision_scores = clf.decision_scores_ # raw outlier scores on the train data
# get outlier labels
thres = CLUST()
labels = thres.eval(decision_scores)
Installation
It is recommended to use pip or conda for installation:
pip install pythresh # normal install
pip install --upgrade pythresh # or update if needed
conda install -c conda-forge pythresh
Alternatively, you can get the version with the latest updates by cloning the repo and run setup.py file:
git clone https://github.com/KulikDM/pythresh.git
cd pythresh
pip install .
Or with pip:
pip install https://github.com/KulikDM/pythresh/archive/main.zip
Required Dependencies:
matplotlib
numpy>=1.13
pyod
scipy>=1.3.1
scikit_learn>=0.20.0
six
Optional Dependencies:
pyclustering (used in the CLUST thresholder)
ruptures (used in the CPD thresholder)
geomstats (used in the KARCH thresholder)
scikit-lego (used in the META thresholder)
joblib>=0.14.1 (used in the META thresholder)
pandas (used in the META thresholder)
torch (used in the VAE thresholder)
tqdm (used in the VAE thresholder)
API Cheatsheet
eval(score): evaluate outlier score.
Key Attributes of threshold:
thresh_: Return the threshold value that separates inliers from outliers. Outliers are considered all values above this threshold value. Note the threshold value has been derived from normalized scores.
confidence_interval_: Return the lower and upper confidence interval of the contamination level. Only applies to the COMB thresholder
External Feature Cases
Towards Data Science: Thresholding Outlier Detection Scores with PyThresh
Towards Data Science: When Outliers are Significant: Weighted Linear Regression
ArXiv: Estimating the Contamination Factor’s Distribution in Unsupervised Anomaly Detection
Available Thresholding Algorithms
Abbr |
Description |
References |
Documentation |
---|---|---|---|
AUCP |
Area Under Curve Percentage |
||
BOOT |
Bootstrapping |
||
CHAU |
Chauvenet’s Criterion |
||
CLF |
Trained Linear Classifier |
||
CLUST |
Clustering Based |
||
CPD |
Change Point Detection |
||
DECOMP |
Decomposition |
||
DSN |
Distance Shift from Normal |
||
EB |
Elliptical Boundary |
||
FGD |
Fixed Gradient Descent |
||
FILTER |
Filtering Based |
||
FWFM |
Full Width at Full Minimum |
||
GESD |
Generalized Extreme Studentized Deviate |
||
HIST |
Histogram Based |
||
IQR |
Inter-Quartile Region |
||
KARCH |
Karcher mean (Riemannian Center of Mass) |
||
MAD |
Median Absolute Deviation |
||
MCST |
Monte Carlo Shapiro Tests |
||
META |
Meta-model Trained Classifier |
||
MOLL |
Friedrichs’ Mollifier |
||
MTT |
Modified Thompson Tau Test |
||
OCSVM |
One-Class Support Vector Machine |
||
QMCD |
Quasi-Monte Carlo Discrepancy |
||
REGR |
Regression Based |
||
VAE |
Variational Autoencoder |
||
WIND |
Topological Winding Number |
||
YJ |
Yeo-Johnson Transformation |
||
ZSCORE |
Z-score |
||
COMB |
Thresholder Combination |
None |
Implementations & Benchmarks
The comparison among implemented models and general implementation is made available below
Additional benchmarking has been done on all the thresholders and it was found that the META thresholder performed best while the CLF thresholder provided the smallest uncertainty about its mean and is the most robust (best least accurate prediction). However, for interpretability and general performance the FILTER thresholder is a good fit.
For Jupyter Notebooks, please navigate to notebooks.
A quick look at all the thresholders performance can be found at “/notebooks/Compare All Models.ipynb”
Contributing
Anyone is welcome to contribute to PyThresh:
Please share your ideas and ask questions by opening an issue.
To contribute, first check the Issue list for the “help wanted” tag and comment on the one that you are interested in. The issue will then be assigned to you.
If the bug, feature, or documentation change is novel (not in the Issue list), you can either log a new issue or create a pull request for the new changes.
To start, fork the main branch and add your improvement/modification/fix.
To make sure the code has the same style and standard, please refer to qmcd.py for example.
Create a pull request to the main branch and follow the pull request template PR template
Please make sure that all code changes are accompanied with proper new/updated test functions. Automatic tests will be triggered. Before the pull request can be merged, make sure that all the tests pass.
References
Please Note not all references’ exact methods have been employed in PyThresh. Rather, the references serve to demonstrate the validity of the threshold types available in PyThresh.
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