Code Release for Learning to Adapt to Evolving Domains

Last update: Dec 07, 2022

Related tags

Deep Learning EAML

Overview

EAML

Code release for "Learning to Adapt to Evolving Domains" (NeurIPS 2020)

Prerequisites

PyTorch >= 0.4.0 (with suitable CUDA and CuDNN version)
torchvision >= 0.2.1
Python3
Numpy
argparse
PIL

Dataset

Rotated MNIST: https://drive.google.com/file/d/1eaw42sg4Cgm34790AW_SKGCSkFosugl2/view?usp=sharing

Training

EAML 

%run eaml.py rot_mnist_28/ --lip-balance 0.2 --lip-jth 0.01 --epochs 500 --lr-in 0.03 --lr-out 0.003

JAN 

%run JAN.py rot_mnist_28/ --lip-balance 0.2 --lip-jth 0.01 --epochs 500 --lr-in 0.03 --lr-out 0.003

Source 

%run source.py rot_mnist_28/ --lip-balance 0.2 --lip-jth 0.01 --epochs 500 --lr-out 0.003

Acknowledgement

This code is implemented based on the JAN (Joint Adaptation Networks) code, and it is our pleasure to acknowledge their contributions. The meta-learning code is adapted from https://github.com/dragen1860/MAML-Pytorch/.

Citation

If you use this code for your research, please consider citing:

@inproceedings{NEURIPS2020_fd69dbe2,
 author = {Liu, Hong and Long, Mingsheng and Wang, Jianmin and Wang, Yu},
 booktitle = {Advances in Neural Information Processing Systems},
 editor = {H. Larochelle and M. Ranzato and R. Hadsell and M. F. Balcan and H. Lin},
 pages = {22338--22348},
 publisher = {Curran Associates, Inc.},
 title = {Learning to Adapt to Evolving Domains},
 url = {https://proceedings.neurips.cc/paper/2020/file/fd69dbe29f156a7ef876a40a94f65599-Paper.pdf},
 volume = {33},
 year = {2020}
}

Contact

If you have any problem about our code, feel free to contact

[email protected]

Code Release for Learning to Adapt to Evolving Domains

Related tags

Overview

EAML

Prerequisites

Dataset

Training

Acknowledgement

Citation

Contact

Owner

GANfolk: Using AI to create portraits of fictional people to sell as NFTs

Repo for WWW 2022 paper: Progressively Optimized Bi-Granular Document Representation for Scalable Embedding Based Retrieval

Pytorch implementation of Learning with Opponent-Learning Awareness

🔊 Audio and fastai v2

A distributed, plug-n-play algorithm for multi-robot applications with a priori non-computable objective functions

Distributed Asynchronous Hyperparameter Optimization better than HyperOpt.

Minecraft agent to farm resources using reinforcement learning

PyTorch implementation of SMODICE: Versatile Offline Imitation Learning via State Occupancy Matching

Official implementation of "OpenPifPaf: Composite Fields for Semantic Keypoint Detection and Spatio-Temporal Association" in PyTorch.

scalingscattering

Sketch-Based 3D Exploration with Stacked Generative Adversarial Networks

Official Pytorch Implementation of 'Learning Action Completeness from Points for Weakly-supervised Temporal Action Localization' (ICCV-21 Oral)

Code for the paper: Sketch Your Own GAN

Stochastic Normalizing Flows

Simple Linear 2nd ODE Solver GUI - A 2nd constant coefficient linear ODE solver with simple GUI using euler's method

Video Background Music Generation with Controllable Music Transformer (ACM MM 2021 Oral)

TLDR: Twin Learning for Dimensionality Reduction

This repository is related to an Arabic tutorial, within the tutorial we discuss the common data structure and algorithms and their worst and best case for each, then implement the code using Python.

AEI: Actors-Environment Interaction with Adaptive Attention for Temporal Action Proposals Generation

A LiDAR point cloud cluster for panoptic segmentation