This repository contains TensorFlow codes and datasets for the paper:
Lianghao Xia, Yong Xu, Chao Huang, Peng Dai, Liefeng Bo (2021). Graph Meta Network for Multi-Behavior Recommendation, Paper in ACM Digital Library, Paper in ArXiv. In SIGIR'21, Online, July 11-15, 2021.
Multi-Behavior Graph Meta Network (MB-GMN) enhances graph neural networks with meta networks for multi-behavior recommendation. Two meta learners model the behavior heterogeneity and the cross-type dependency, respectively, with the consideration of interaction diversity.
If you want to use our codes and datasets in your research, please cite:
@inproceedings{xia2021graph,
author = {Xia, Lianghao and
Xu, Yong and
Huang, Chao and
Dai, Peng and
Bo, Liefeng},
title = {Graph Meta Network for Multi-Behavior Recommendation},
booktitle = {Proceedings of the 44th International {ACM} {SIGIR} Conference on
Research and Development in Information Retrieval, {SIGIR} 2021,
Online, July 11-15, 2021.},
year = {2021},
}
The codes of MB-GMN are implemented and tested under the following development environment:
- python=3.6.12
- tensorflow=1.14.0
- numpy=1.16.0
- scipy=1.5.2
We utilized three datasets to evaluate MB-GMN: Beibei, Tmall, and IJCAI Contest. The purchase behavior is taken as the target behavior for all datasets. The last target behavior for the test users are left out to compose the testing set. We filtered out users and items with too few interactions.
Please unzip the datasets first. Also you need to create the History/ and the Models/ directories. The command to train MB-GMN on the Beibei/Tmall/IJCAI dataset is as follows. The commands specify the hyperparameter settings that generate the reported results in the paper. For IJCAI dataset, we conducted sub-graph sampling to efficiently handle the large-scale multi-behavior user-item graphs.
- Beibei
python .\labcode.py
- Tmall
python .\labcode.py --data tmall --rank 2
- IJCAI
python .\labcode_samp.py --data ijcai --rank 2 --graphSampleN 40000
Important arguments:
reg: It is the weight for weight-decay regularization. We tune this hyperparameter from the set{1e-2, 5e-3, 1e-3, 5e-4, 1e-4, 5e-5, 1e-5}.rank: This hyperparameter specifies the configuration of the low-rank restriction, which should be small than the latent dimensionality.graphSampleN: It denotes the number of nodes to sample in each step of sub-graph sampling. It is tuned from the set{10000, 20000, 30000, 40000, 50000}
This work is supported by National Nature Science Foundation of China (62072188), Major Project of National Social Science Foundation of China (18ZDA062), Science and Technology Program of Guangdong Province (2019A050510010).