CVPR20 CLVision Continual Learning Challenge 1'st Place Solution for team UT_LG
Zheda Mai(University of Toronto), Hyunwoo Kim(LG Sciencepark), Jihwan Jeong (University of Toronto), Scott Sanner (University of Toronto, Vector Institute)
Contact: [email protected]
Final Ranking: https://sites.google.com/view/clvision2020/challenge/challenge-winners
Paper: http://arxiv.org/abs/2007.05683
Continual learning is a branch of deep learning that seeks to strike a balance between learning stability and plasticity. The CVPR 2020 CLVision Continual Learning for Computer Vision challenge is dedicated to evaluating and advancing the current state-of-the-art continual learning methods.
The challenge will be based on the CORe50 dataset and composed of three tracks:
- New Instances (NI): In this setting 8 training batches of the same 50 classes are encountered over time. Each training batch is composed of different images collected in different environmental conditions.
- Multi-Task New Classes (Multi-Task-NC)*: In this setting the 50 different classes are split into 9 different tasks: 10 classes in the first batch and 5 classes in the other 8. In this case the task label will be provided during training and test.
- New Instances and Classes (NIC): this protocol is composed of 391 training batches containing 300 images of a single class. No task label will be provided and each batch may contain images of a class seen before as well as a completely new class.
Each solution will be evaluated across a number of metrics:
- Final Accuracy on the Test Set: should be computed only at the end of the training.
- Average Accuracy Over Time on the Validation Set: should be computed at every batch/task.
- Total Training/Test time: total running time from start to end of the main function (in Minutes).
- RAM Usage: Total memory occupation of the process and its eventual sub-processes. Should be computed at every epoch (in MB).
- Disk Usage: Only of additional data produced during training (like replay patterns) and also pre-trained weights. Should be computed at every epoch (in MB).
Final aggregation metric (CL_score): weighted average of the 1-5 metrics (0.3, 0.1, 0.15, 0.125, 0.125 respectively
Our approach is based on Experience Replay, a memory-based continual learning method that has been proved effective in various continual learning problems. The details of the approach can be found in our paper.
Download the dataset and related utilities:
sh fetch_data_and_setup.shSetup the conda environment:
conda env create -f environment.yml
conda activate clvision-challengesh create_submission.sh
The parameters for the final submissions:
config/final/nc.ymlconfig/final/ni.ymlconfig/final/nic.yml
The detailed explanation of these parameters can be found in general_main.py
The starting code of this repository is from the official starting repository.