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[TKDD'23] Demo code of the paper entitled "Towards a Better Trade-Off between Quality and Efficiency of Community Detection: An Inductive Embedding Method across Graphs", which has been accepted by ACM TKDD

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Towards a Better Trade-Off between Quality and Efficiency of Community Detection: An Inductive Embedding Method across Graphs

This repository provides a reference implementation of the ICD method introduced in the paper "Towards a Better Trade-Off between Quality and Efficiency of Community Detection: An Inductive Embedding Method across Graphs", which has been accepcted by ACM Transactions on Knowledge Discovery from Data (TKDD).

Abstract

Many network applications can be formulated as NP-hard combinatorial optimization problems of community detection (CD) that partitions nodes of a graph into several groups with dense linkage. Most existing CD methods are transductive, which independently optimized their models for each single graph, and can only ensure either high quality or efficiency of CD by respectively using advanced machine learning techniques or fast heuristic approximation. In this study, we consider the CD task and aim to alleviate its NP-hard challenge. Motivated by the efficient inductive inference of graph neural networks (GNNs), we explore the possibility to achieve a better trade-off between the quality and efficiency of CD via an inductive embedding scheme across multiple graphs of a system and propose a novel inductive community detection (ICD) method. Concretely, ICD first conducts the offline training of an adversarial dual GNN structure on historical graphs to capture key properties of a system. The trained model is then directly generalized to new graphs of the same system for online CD without additional optimization, where a better trade-off between quality and efficiency can be achieved. Compared with existing inductive approaches, we develop a novel feature extraction module based on graph coarsening, which can efficiently extract informative feature inputs for GNNs. Moreover, our original designs of adversarial dual GNN and clustering regularization loss further enable ICD to capture permutation-invariant community labels in the offline training and help derive community-preserved embedding to support the high-quality online CD. Experiments on a set of benchmarks demonstrate that ICD can achieve a significant trade-off between quality and efficiency over various baselines.

Citing

If you find this project useful for your research, please cite the following paper.

@article{qin2023towards,
  title={Towards a better trade-off between quality and efficiency of community detection: An inductive embedding method across graphs},
  author={Qin, Meng and Zhang, Chaorui and Bai, Bo and Zhang, Gong and Yeung, Dit-Yan},
  journal={ACM Transactions on Knowledge Discovery from Data (TKDD)},
  volume={17},
  number={9},
  pages={127-161},
  year={2023},
  publisher={ACM New York, NY}
}

If you have questions, you can contact the author via [mengqin_az@foxmail.com].

Requirements

pytorch

scipy

munkres

sklearn

Usage

Please download the example datasets (~1.41GB), including the edge list and 'ground-truth' for each graph. Unzip it and put all the data files under the directory ./data.

One can also generate syntetic graphs (e.g., GN-Net and LFR-Net) from scratch using the script under the directory ./data. Before generating graphs of LFR-Net, cd to ./data/LFR and use 'make' to build the corresponidng C++ project.

For the demo of ICD-M and ICD-C on different datasets, please run the script ICD_[M,C]_[dataset name]_demo.py. The evaluation result (on validation set) w.r.t. each epoch will be saved under the directory ./res. If the flag variable save_flag (in ICD_[M,C]_[dataset name]_demo.py) is set to True, the checkpoint w.r.t. each epoch will be saved under the directory ./chpt. If the flag variable test_eva_flag (in ICD_[M,C]_[dataset name]_demo.py) is set to True, the script will also conduct the evaluation on test set and save correponding results w.r.t. each epoch under the directory ./res.

To evaluate the quality and efficiency of a saved checkppoint (on test set), set epoch_idx to the epoch to be checked in ICD_[M,C]_[dataset name]_chpt.py and run it.

Notes

When testing the runtime, please make sure there are no other processes with heavy resource reqirements (e.g., GPUs and memory) running on the same server. Otherwise, the evaluated runtime may not be stable.

For some large snapshots (e.g., with several thousands nodes), the compution of the modularity and NCut metrics may be time-consuming.

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[TKDD'23] Demo code of the paper entitled "Towards a Better Trade-Off between Quality and Efficiency of Community Detection: An Inductive Embedding Method across Graphs", which has been accepted by ACM TKDD

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