This is our Pytorch implementation for the paper:
Xiang Wang, Yaokun Xu, Xiangnan He, Yixin Cao, Meng Wang and Tat-Seng Chua (2020). Reinforced Negative Sampling over Knowledge Graph for Recommendation. Paper in arXiv. In WWW'2020, Taipei, Taiwan, China, April 20–24, 2020.
Author: Dr. Xiang Wang (xiangwang at u.nus.edu) and Mr. Yaokun Xu (xuyaokun98 at gmail.com)
Knowledge Graph Policy Network (KGPolicy) is a new negative sampling framework tailored to knowledge-aware personalized recommendation. Exploiting rich connections of knowledge graph, KGPolicy is able to discover high-quality (i.e., informative and factual) items as negative training instances, thus providing better recommendation.
If you want to use our codes and datasets in your research, please cite:
@inproceedings{KGPolicy20,
author = {Xiang Wang and
Yaokun Xu and
Xiangnan He and
Yixin Cao and
Meng Wang and
Tat{-}Seng Chua},
title = {Reinforced Negative Sampling over Knowledge Graph for Recommendation},
booktitle = {{WWW}},
year = {2020}
}
To demonstrate the reporducibility of the best performance reported in our paper and faciliate researchers for development and testing purpose, we provide the instructions as follows. Later, we will release the other baselines.
We follow our previous work, KGAT, and you can get the detailed information about the datasets in KGAT.
i. Create a new directory for this repo
➜ mkdir KG-Policy
➜ cd KG-Policy
ii. Get dataset and pretrain model
➜ wget https://github.com/xiangwang1223/kgpolicy/releases/download/v1.0/Data.zip
➜ unzip Data.zip
iii. Get source code
➜ git clone https://github.com/xiangwang1223/kgpolicy.git
Please use conda to manage the environment.
i. Switch to source code dir
➜ cd kgpolicy
ii. Create a new environment
➜ conda create -n geo python=3.6
➜ conda activate geo
iii. Ensure python version is 3.6
. Then install all requirements for this project.
➜ bash setup.sh
Note that: Sometimes there is mismatch between cuda
version and torch_geometric
version. If you encounter this problem, please try to install a correct cuda
version. If you prefer to install all dependences by yourself, please ensure torch_geometric
is properly installed. After doing these, now it's ready to train KG-Policy model.
i. Train KG-Policy on last-fm
. Also, KG-Policy can be trained on other two datasets, amazon-book
and yelp2018
, check it out in Data
.
➜ python main.py
To run on other two datasets
➜ python main.py --regs 1e-4 --dataset yelp2018 --model_path model/best_yelp.ckpt
➜ python main.py --regs 1e-4 --dataset amazon-book --model_path model/best_ab.ckpt
Note that: The default regs
is 1e-5
, while we use 1e-4
as regs
when training amazon-book
and yelp2018
. There are also some others parameters can be tuned for a better performance, check it out at common/config/parser.py
.
To be consistent to our KGAT, we use the same evaluation metrics (i.e., Recall@K
and NDCG@K
), use the same codes released in KGAT, and report them in our KGPolicy paper. We note that this implementation of NDCG@K
is different from the standard definition, while they reflect similar trendings. Hence here we also report the results in terms of the standard NDCG@K*
and please check the implementation at common/test.py
.
i. Dataset: last-fm
Model | Recall@20 | NDCG@20 |
---|---|---|
RNS | 0.0687 | 0.0584 |
DNS | 0.0874 | 0.0746 |
IRGAN | 0.0755 | 0.0627 |
KG-Policy | 0.0957 | 0.0837 |
ii. Dataset: yelp2018
Model | Recall@20 | NDCG@20 |
---|---|---|
RNS | 0.0465 | 0.0298 |
DNS | 0.0666 | 0.0429 |
IRGAN | 0.0538 | 0.0342 |
KG-Policy | 0.0746 | 0.0489 |
iii. Dataset: amazon-book
Model | Recall@20 | NDCG@20 |
---|---|---|
RNS | 0.1239 | 0.0647 |
DNS | 0.1460 | 0.0775 |
IRGAN | 0.1330 | 0.0693 |
KG-Policy | 0.1609 | 0.0890 |
Any scientific publications that use our codes and datasets should cite the following paper as the reference:
@inproceedings{KGPolicy20,
author = {Xiang Wang and
Yaokun Xu and
Xiangnan He and
Yixin Cao and
Meng Wang and
Tat{-}Seng Chua},
title = {Reinforced Negative Sampling over Knowledge Graph for Recommendation},
booktitle = {{WWW}},
year = {2020}
}
Nobody guarantees the correctness of the data, its suitability for any particular purpose, or the validity of results based on the use of the data set. The data set may be used for any research purposes under the following conditions:
- The user must acknowledge the use of the data set in publications resulting from the use of the data set.
- The user may not redistribute the data without separate permission.
- The user may not try to deanonymise the data.
- The user may not use this information for any commercial or revenue-bearing purposes without first obtaining permission from us.
This research is supported by the National Research Foundation, Singapore under its International Research Centres in Singapore Funding Initiative. Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not reflect the views of National Research Foundation, Singapore.