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Official Implement of "ADGym: Design Choices for Deep Anomaly Detection", NeurIPS 2023

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ADGym 🏃‍♂️ :Design Choices for Deep Anomaly Detection

ADGym performs large benchmark and automatical selection of AD design choices, where AD design dimensions/choices are acquired (listed in the following Table) by decoupling the standard AD research pipeline:

Data AugmentationData PreprocessingNetwork ConstructionNetwork Training

Currently, ADGym is mainly devised for the tabular data.

Each part of the pipeline can be instantiated by multiple components (core components are marked in bold):

Pipeline Detailed Components Value
Data Augmentation [Oversampling, SMOTE, Mixup, GAN]
Data Preprocessing [MinMax, Normalization]
Network Construction Network Architecture [MLP, AutoEncoder, ResNet, FTTransformer]
Hidden Layers [[20], [100, 20], [100, 50, 20]]
Activation [Tanh, ReLU, LeakyReLU]
Dropout [0.0, 0.1, 0.3]
Initialization [PyTorch default, Xavier, Kaiming]
Network Training Loss Function [BCE, Focal, Minus, Inverse, Hinge, Deviation, Ordinal]
Optimizer [SGD, Adam, RMSprop]
Batch Resampling [False, True]
Epochs [20, 50, 100]
Batch Size [16, 64, 256]
Learning Rate [1e-2, 1e-3]
Weight Decay [1e-2, 1e-4]

Quick Start with ADGym!

  • For the experimental results of all the components, open the test_ADGym.py and run:
adgym = ADGym(la=5, grid_mode='small', grid_size=1000, suffix='test')
adgym.run()
  • For the experimental results of all the current SOTA semi- or supervised models, open the test_SOTA.py and run:
pipeline = RunPipeline(suffix='SOTA', parallel='semi-supervise', mode='nla')
pipeline.run()

pipeline = RunPipeline(suffix='SOTA', parallel='supervise', mode='nla')
pipeline.run()
  • For the experimental results of meta classifier (and its counterpart baseline), open the meta.py and run:
# two-stage meta classifier, using meta-feature extractor in MetaOD
run(suffix='', grid_mode='small', grid_size=1000, mode='two-stage')
# end-to-end meta classifier
run(suffix='', grid_mode='small', grid_size=1000, mode='end-to-end')

Python Package Requirements

  • iteration_utilities==0.11.0
  • metaod==0.0.6
  • scikit-learn==0.24
  • imbalanced-learn==0.7.0
  • torch==1.9.0
  • tensorflow==2.8.0
  • tabgan==1.2.1
  • rtdl==0.0.13
  • protobuf==3.20.*
  • numpy==1.21.6

Update Logs

  • 2022.11.17: run the experiments of current component combinations
  • 2022.11.23: add the GAN-based data augmentation method
  • 2022.11.25: add the oversampling and SMOTE data augmentation method
  • 2022.11.25: add the binary cross entropy loss and focal loss
  • 2023.01.04: add the Mixup data augmentation method
  • 2023.01.04: add different network initialization methods
  • 2023.01.04: add the ordinal loss in PReNet model
  • 2023.01.04: revise the labeled anomalies to the number (instead of ratio) of labeled anomalies
  • 2023.02.20: restart ADGym
  • 2023.02.20: add two baselines: random selection and model selection based on the partially labeled data
  • 2023.02.22: provide both two-stage and end-to-end versions of meta predictor
  • 2023.02.23: improve the training efficiency in meta classifier
  • 2023.02.28: support GPU version of meta predictors and fix some bugs
  • 2023.03.01: provide ml-based meta predictor
  • 2023.03.01: using the performance rank ratio (instead of performance) as training targets
  • 2023.04.23: learning-to-rank + ensemble strategy
  • 2023.05.09: add two loss functions for meta predictor
  • 2023.05.09: add early-stopping mechanism for meta predictor
  • 2023.05.09: add CORAL method for transfer learning in meta features
  • 2023.05.13: provide ensembled topk components
  • 2023.05.22: fixed the bug that modified the original data during the process of conducting the experiment.
  • 2023.05.22: optimized code efficiency
  • 2023.05.29: fixed the bug in REPEN model
  • 2023.06.01: fixed the bug in data preprocessing of meta predictor (end-to-end mode)
  • 2023.06.01: replace the LightGBM by XGBoost (which is faster) for ml-based meta predictor

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