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Multi-branch Neural Networks for Anomaly Detection under adverse lighting and weather conditions

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Multi-branch Neural Network for Anomaly Detection in Adverse Lighting and Weather Conditions

This repository provides the implementation for our paper Multi-branch Neural Networks for Video Anomaly Detection in Adverse Lighting and Weather Conditions (Bo Li, Sam Leroux, and Pieter Simoens). We experimentally show that by making the background subtraction learnable and by adding multiple branches, we are better at detecting anomalies in scenes with varying visibility.

Background interpolation on Nov-27-2020 in Brugge with view of the Market Square near the Belfry bell tower from the Olive Tree Restaurant

Detected anomalies on video sequence testing_video_21 from the Avenue dataset with heavy rain under illumination 0.8 (left: most anomalous regions. right: anomalous score movement)

Installation and data preparation

  1. Clone this repo and prepare the environment
git clone https://github.com/lyn1874/mbnn_ad.git
cd mbnn_ad
./requirement.sh
  1. Prepare the dataset and download the model ckpts
./prepare_data.sh datadir augmentdata download_ckpt train_or_test rain bright
Args:
	datadir: the path to save the data, i.e., /project/anomaly_data/
	augmentdata: bool variable. true: augment the data
	download_ckpt: bool variable true: download the ckpt to folder checkpoints/
	train_or_test: str, training/testing
	rain: str, original/heavy/torrential, used when augmentdata is true
	bright: int, 1 to 10, used when augmentdata is true
Example:
./prepare_data.sh /project/anomaly_data/ true true testing heavy 8

Evaluate the model performance

./test_exp.sh version opt rain brightness datadir expdir modeltype data 
Args:
	version: int, experiment version 
	opt: str, test/fps/check_recons_pred
	rain: str, None/heavy/torrential
	brightness: int, the brightness value
	datadir: str, the path that saves the data
	expdir: str, the path that saves the model ckpts
	modeltype: str, single_branch/multi_branch_z
	data: str, avenue/avenue_robust_on_rain
Example:
	./test_exp.sh 0 fps None 0 /project/anomaly_data/ checkpoints/ single_branch avenue
Note:
	To evaluate the model, you first need to generate the dataset as explained in the previous step

Train the model

./run_exp.sh dataset model version 
Args:
	dataset: avenue/avenue_robust_on_rain
	model: single_branch/multi_branch_z
	version: int
	datadir: the path that saves the dataset 
	expdir: the path that saves the experiment
Example:
	./run_exp.sh avenue multi_branch_z 0 /project/anomaly_data/ checkpoints/
Credits
Citation

If you use the code, please cite

@InProceedings{Leroux_2022_WACV,
    author    = {Leroux, Sam and Li, Bo and Simoens, Pieter},
    title     = {Multi-Branch Neural Networks for Video Anomaly Detection in Adverse Lighting and Weather Conditions},
    booktitle = {Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision (WACV)},
    month     = {January},
    year      = {2022},
    pages     = {2358-2366}
}

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