Due to the change in title, you can find our article by searching STD-MAE directly.
Preprint Link (All six datasets [PEMS03, 04, 07, 08, PEMS-BAY, and METR-LA] are included. You can also check the performace of PEMSD7M, PEMSD7L, and EXPY-TKY datasets in this repo.)
Note
If you find this repository useful for your research, please cite our work :)
ArXiv Version
@article{gao2023spatio,
title={Spatio-Temporal-Decoupled Masked Pre-training for Traffic Forecasting},
author={Gao, Haotian and Jiang, Renhe and Dong, Zheng and Deng, Jinliang and Song, Xuan},
journal={arXiv preprint arXiv:2312.00516},
year={2023}
}
IJCAI-2024 Version
@inproceedings{ijcai2024p0442,
title = {Spatial-Temporal-Decoupled Masked Pre-training for Spatiotemporal Forecasting},
author = {Gao, Haotian and Jiang, Renhe and Dong, Zheng and Deng, Jinliang and Ma, Yuxin and Song, Xuan},
booktitle = {Proceedings of the Thirty-Third International Joint Conference on
Artificial Intelligence, {IJCAI-24}},
publisher = {International Joint Conferences on Artificial Intelligence Organization},
editor = {Kate Larson},
pages = {3998--4006},
year = {2024},
month = {8},
note = {Main Track},
doi = {10.24963/ijcai.2024/442},
url = {https://doi.org/10.24963/ijcai.2024/442},
}
- Please note you can get a much better performance on PEMS07 dataset using pre-training length of 2016. But it is a time-cosuming operation.
METR-LA | PEMS-BAY |
---|---|
PEMSD7M&L |
---|
EXPY-TKY |
---|
You can check more baseline results at Torch-MTS.
Linux systems (e.g. Ubuntu and CentOS).
The code is built based on Python 3.9, PyTorch 1.13.0, and EasyTorch. You can install PyTorch following the instruction in PyTorch.
Miniconda or Anaconda are recommended to create a virtual python environment.
We implement our code based on BasicTS.
pip install -r requirements.txt
STD-MAE has now been integrated into BasicTS. You can also check many baselines there.
You can download data from BasicTS and unzip it.
- Pre-process Data
You can pre-process all datasets by
cd /path/to/your/project
bash scripts/data_preparation/all.sh
Then the dataset
directory will look like this:
datasets
├─PEMS03
├─PEMS04
├─PEMS07
├─PEMS08
├─raw_data
| ├─PEMS03
| ├─PEMS04
| ├─PEMS07
| ├─PEMS08
├─README.md
cd /path/yourproject
Then run the folloing command to run in Linux screen.
screen -d -m python stdmae/run.py --cfg='stdmae/TMAE_PEMS03.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/TMAE_PEMS04.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/TMAE_PEMS07.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/TMAE_PEMS08.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/SMAE_PEMS03.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/SMAE_PEMS04.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/SMAE_PEMS07.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/SMAE_PEMS08.py' --gpus='0'
After pre-training , copy your pre-trained best checkpoint to mask_save/
.
For example:
cp checkpoints/TMAE_200/064b0e96c042028c0ec44856f9511e4c/TMAE_best_val_MAE.pt mask_save/TMAE_PEMS04_864.pt
cp checkpoints/SMAE_200/50cd1e77146b15f9071b638c04568779/SMAE_best_val_MAE.pt mask_save/SMAE_PEMS04_864.pt
Then run the predictor as :
screen -d -m python stdmae/run.py --cfg='stdmae/STDMAE_PEMS04.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/STDMAE_PEMS03.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/STDMAE_PEMS08.py' --gpus='0'
screen -d -m python stdmae/run.py --cfg='stdmae/STDMAE_PEMS07.py' --gpus='0'
- To find the best result in logs, you can search
best_
in the log files.