This is a TensorFlow implementation of the Distribution-induced Bidirectional GAN (DBGAN) model as described in our paper. Some of the code is borrowed from T. N. Kipf, M. Welling, Variational Graph Auto-Encoders[https://github.com/tkipf/gae] and Hu. R, ARGA [https://github.com/Ruiqi-Hu/ARGA]
This code contains two versions of the hyper-parameters. The first one is the implementation of node clustering task. The second one is the implementation of link prediction task.
- TensorFlow >= 1.12.0
- python 3.6
- networkx
- scikit-learn
- scipy
- dppy==0.2.0
- munkres
preset version:
python run.pyor modifying the network parameters and run
python run.py --hidden3 xxx --hidden2 xxx --learning_rate xxx ...You can select the dataset in run.py
If you want to use your own data, you have to provide
- an N by N adjacency matrix (N is the number of nodes), and
- an N by D feature matrix (D is the number of features per node) -- optional
Have a look at the load_data() function in input_data.py for an example.
In this example, we load citation network data (Cora, Citeseer or Pubmed). The original datasets can be found here: http://linqs.cs.umd.edu/projects/projects/lbc/ and here (in a different format): https://github.com/kimiyoung/planetoid
Please cite following papers if you use this code in your own work:
@inproceedings{zheng2020distribution,
title={Distribution-induced bidirectional generative adversarial network for graph representation learning},
author={Zheng, Shuai and Zhu, Zhenfeng and Zhang, Xingxing and Liu, Zhizhe and Cheng, Jian and Zhao, Yao},
booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
pages={7224--7233},
year={2020}
}