https://github.com/Jhy1993/Representation-Learning-on-Heterogeneous-Graph
The source code of Heterogeneous Graph Attention Network (WWW-2019).
The source code is based on GAT
If you make advantage of the HAN model or use the datasets released in our paper, please cite the following in your manuscript:
@article{han2019,
title={Heterogeneous Graph Attention Network},
author={Xiao, Wang and Houye, Ji and Chuan, Shi and Bai, Wang and Peng, Cui and P. , Yu and Yanfang, Ye},
journal={WWW},
year={2019}
}
Demo: preprocess_dblp.py
https://github.com/Jhy1993/HAN/blob/master/0516纪厚业%20www%20ppt%20copy.pdf
- ACM_3025 in our experiments is based on the preprocessed version ACM in other paper (\data\ACM\ACM.mat). Subject is just like Neural Network, Multi-Object Optimization and Face Recognition. In ACM3025, PLP is actually PSP. You can find it in our code.
- In ACM, train+val+test < node_num. That is because our model is a semi-supervised model which only need a few labels to optimize our model. The num of node can be found in meta-path based adj mat.
- "the model can generate node embeddings for previous unseen nodes or even unseen graph" means the propose HAN can do inductive experiments. However, we cannot find such heterogeneous graph dataset. See experiments setting in Graphsage and GAT for details, especially on PPI dataset.
- meta-path can be symmetric or asymmetric. HAN can deal with different types of nodes via project them into the same space.
- Can we change the split of dataset and re-conduct some experiments? of course, you can split the dataset by yourself, as long as you use the same split for all models.
- How to run baseline (e.g., GCN) and report the best performance of baselines? Taking ACM as an example, we translate heterogenesous graph into two homogeneous graphs via meta-path PAP&PSP. For PAP based homogeneous graph, it only has one type of node paper and two paper connected via PAP. Then, we run GCN on two graphs and report the best performance. Ref https://arxiv.org/pdf/1902.01475v1.pdf and https://web.cs.wpi.edu/~xkong/publications/papers/www18.pdf
- Several principles for preprocess data. 1)Extract nodes which have all meta-path based neighbors. 2)Extract features which may meaningful in identifying the characteristics of nodes. For example, if all nodes have one feature, this feature is not meaningful. If only several nodes have one feature, this feature is not meaningful. 3) Extract balanced node label which means different classes should have almost the same number of node. For k classes, each class should select 500 nodes and label them, so we get 500*k labeled nodes.
Preprocessed ACM can be found in: https://pan.baidu.com/s/1V2iOikRqHPtVvaANdkzROw 提取码:50k2
Preprocessed DBLP can be found in: https://pan.baidu.com/s/1Qr2e97MofXsBhUvQqgJqDg 提取码:6b3h
Preprocessed IMDB can be found in: 链接:https://pan.baidu.com/s/199LoAr5WmL3wgx66j-qwaw 密码:qkec
Download preprocessed data and modify data path in def load_data_dblp(path='/home/jhy/allGAT/acm_hetesim/ACM3025.mat'):
python ex_acm3025.py
https://github.com/dmlc/dgl/tree/master/examples/pytorch/han