Skip to content

Official Implementation of the ECCV 2022 Paper "Class-Incremental Learning with Cross-Space Clustering and Controlled Transfer"

Notifications You must be signed in to change notification settings

ashok-arjun/CSCCT

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

4 Commits
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Class-Incremental Learning with Cross-Space Clustering and Controlled Transfer

The official implementation of our ECCV 2022 paper "Class-Incremental Learning with Cross-Space Clustering and Controlled Transfer".
[Paper] [Project Page]

Getting Started

In order to run this repository, we advise you to install python 3.6 and PyTorch 1.2.0 with Anaconda.

You may download Anaconda and read the installation instruction on their official website: https://www.anaconda.com/download/

Create a new environment and install PyTorch and torchvision on it:

conda create --yes --name CSCCT-PyTorch python=3.6
conda activate CSCCT-PyTorch
conda install --yes pytorch=1.2.0 
conda install --yes torchvision -c pytorch

Install other requirements:

pip install tqdm scipy sklearn tensorboardX Pillow==6.2.2

Running Experiments

Baselines

python main.py --nb_cl_fg=INITIAL_TASK_SIZE --nb_cl=TASK_SIZE --gpu=GPU --random_seed=1993 --baseline=BASELINE --branch_mode=single --branch_1=free --dataset=DATASET

The above script can be used, replacing

INITIAL_TASK_SIZE with the number of classes in the first task (given as $\mathcal{B}$ in the paper),

TASK_SIZE with the number of classes in every subsequent task (given as $\mathcal{C}$ in the paper),

BASELINE with either 'lucir' or 'icarl',

DATASET with either 'cifar100 or 'imagenet_sub',

GPU with the GPU to run the model in.

Baselines + CSCCT

To add cross-space clustering and controlled transfer (CSCCT) to the baselines, follow the below directions.

To add cross-space clustering (CSC), add the additional flags

--csc --csc_weight SPECIFY_CSC_WEIGHT

replacing SPECIFY_CSC_WEIGHT with the appropriate weight for the CSC objective. The default value for csc_weight is $3$.

To add controlled transfer(CT), add the additional flags

--ct --ct_weight SPECIFY_CT_WEIGHT --ct_temperature SPECIFY_CT_TEMP

replacing SPECIFY_CT_WEIGHT with the appropriate weight for the CT objective, and SPECIFY_CT_TEMP with the temperature.

The default value for ct_weight is $1.5$, and default value for ct_temperature is $2$.

Note on datasets

CIFAR100 is automatically downloaded to ./data; the directory can be changed using the flag --data_dir PATH.

ImageNet-Subset is assumed to be present at ./data/imagenet_sub; the parent directory (./data) can be changed using the flag --data_dir PATH.

To download ImageNet-Subset, the full ImageNet dataset from the official ImageNet website (note: requires login) must be first downloaded. Then, the 100-class train and val splits (taken from the codebase of PODNet) should be used to remove the other 900 classes and preprocess the data.

Running Experiments on ImageNet

To run the experiments on ImageNet-Subset, you need to change the hyperparameters according to this file.

Bibtex

If you find this code useful, please cite our work:

@article{ashok2022class, 
title={Class-Incremental Learning with Cross-Space Clustering and Controlled Transfer}, 
author={Ashok, Arjun and Joseph, KJ and Balasubramanian, Vineeth}, 
journal={arXiv preprint arXiv:2208.03767}, year={2022} }

About

Official Implementation of the ECCV 2022 Paper "Class-Incremental Learning with Cross-Space Clustering and Controlled Transfer"

Topics

Resources

Stars

Watchers

Forks

Languages