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Dynamic Knowledge Graph Completion

This page is to summarize important materials about dynamic (temporal) knowledge graph completion and dynamic graph embedding.

Bookmarks

Temporal Knowledge Graph Completion
Dynamic Graph Embedding
Knowledge Graph Embedding
Static Graph Embedding
Survey
Others
Useful Libararies

Temporal Knowledge Graph Completion / Reasoning

Recurrent Event Network: Autoregressive Structure Inference over Temporal Knowledge Graphs
- Woojeong Jin, Meng Qu, Xisen Jin, Xiang Ren. EMNLP 2020.
  - This work is on an extrapolation problem which is to make predictions at unobserved times, different from interpolation work.
  - Proposes a novel neural architecture for modeling complex entity interaction sequences, which consists of a recurrent event encoder and a neighborhood aggregator.
  - Explores various neighborhood aggregators: a multi-relational graph aggregator demonstrates its effectiveness among them.
  - Code and Data

Learning Sequence Encoders for Temporal Knowledge Graph Completion (Interpolation)
- Alberto Garcia-Duran, Sebastijan Dumancic, Mathias Niepert. EMNLP 2018.
Towards time-aware knowledge graph completion (Interpolation)
- Tingsong Jiang, Tianyu Liu, Tao Ge, Lei Sha, Baobao Chang, Sujian Li and Zhifang Sui. COLING 2016.
Deriving validity time in knowledge graph (Interpolation)
- Julien Leblay and Melisachew Wudage Chekol. WWW Workshop 2018.
HyTE: Hyperplane-based Temporally aware Knowledge Graph Embedding (Interpolation)
- Shib Sankar Dasgupta, Swayambhu Nath Ray, Partha Talukdar. EMNLP 2018.
- Code (TF based)
Predicting the co-evolution of event and knowledge graphs
- Cristóbal Esteban, Volker Tresp, Yinchong Yang, Stephan Baier, Denis Krompaß. FUSION 2016.
Temporal Knowledge Graph Embedding Model based on Additive Time Series Decomposition
Diachronic Embedding for Temporal Knowledge Graph Completion
Hybrid-TE: Hybrid Translation-based Temporal Knowledge Graph Embedding
Tensor Decompositions for Temporal Knowledge Base Completion

Dynamic Graph Embedding

DyREP: Learning Representations over Dynamic Graphs (Extrapolation)
- Rakshit Trivedi, Mehrdad Farajtabar, Prasenjeet Biswal, Hongyuan Zha. ICLR 2019.
DynGEM: Deep Embedding Method for Dynamic Graphs
- Palash Goyal, Nitin Kamra, Xinran He, Yan Liu. IJCAI 2017.
Graph2Seq: Scalable Learning Dynamics for Graphs
- Shaileshh Bojja Venkatakrishnan, Mohammad Alizadeh, Pramod Viswanath
Dynamic Graph Representation Learning via Self-Attention Networks
- Aravind Sankar, Yanhong Wu, Liang Gou, Wei Zhang, Hao Yang
Continuous-Time Dynamic Network Embeddings
- Giang Hoang Nguyen, John Boaz Lee, Ryan A. Rossi, Nesreen K. Ahmed, Eunyee Koh, Sungchul Kim. WWW 2018.
GC-LSTM: Graph Convolution Embedded LSTM for Dynamic Link Prediction
- Jinyin Chen, Xuanheng Xu, Yangyang Wu, Haibin Zheng
Learning Dynamic Embeddings from Temporal Interaction Networks
- Srijan Kumar, Xikun Zhang, Jure Leskovec
Dynamic Graph Convolutional Networks
- Franco Manessi, Alessandro Rozza, Mario Manzo
Streaming Graph Neural Networks
- Yao Ma, Ziyi Guo, Zhaochun Ren, Eric Zhao, Jiliang Tang, Dawei Yin

Dynamic Network Embedding: An Extended Approach for Skip-gram based Network Embedding
- Lun Du, Yun Wang, Guojie Song, Zhicong Lu, Junshan Wang
EvolveGCN: Evolving Graph Convolutional Networks for Dynamic Graphs
- Aldo Pareja, Giacomo Domeniconi, Jie Chen, Tengfei Ma, Toyotaro Suzumura, Hiroki Kanezashi, Tim Kaler, Charles E. Leisersen, ArXiv.
Gated Residual Recurrent Graph Neural Networks for Traffic Prediction
- Cen Chen, Kenli Li, Sin G. Teo, Xiaofeng Zou, Kang Wang, Jie Wang, Zeng Zeng, AAAI 2019.
Structured Sequence Modeling with Graph Convolutional Recurrent Networks
- Youngjoo Seo, Michaël Defferrard, Pierre Vandergheynst, Xavier Bresson, ICONIP 2017.
Dynamic Network Embedding by Modeling Triadic Closure Process
- Lekui Zhou, Yang Yang, Xiang Ren, Fei Wu, Yueting Zhuang. AAAI 2018.
DynGAN: Generative Adversarial Networks for Dynamic Network Embedding
- Ayush Maheshwari, Ayush Goyal, Manjesh Kumar Hanawal, Ganesh Ramakrishnan. NeurIPS 2019 Workshop.

Knowledge Graph Embedding

Modeling Relational Data with Graph Convolutional Networks
- Michael Schlichtkrull, Thomas N. Kipf, Peter Bloem, Rianne van den Berg, Ivan Titov, Max Welling. ESWC 2018.
- Code (Keras based), Code (TF based)
Neural Relational Inference for Interacting Systems
- Thomas Kipf, Ethan Fetaya, Kuan-Chieh Wang, Max Welling, Richard Zemel. ICML 2018.
- Code (Pytorch based)
Interpretable Graph Convolutional Neural Networks for Inference on Noisy Knowledge Graphs
- Daniel Neil, Joss Briody, Alix Lacoste, Aaron Sim, Paidi Creed, Amir Saffari. ICONIP 2017.

Static Graph Embedding

Inductive Representation Learning on Large Graphs
- William L. Hamilton, Rex Ying, Jure Leskovec
- Code (TF based), Code (Pytorch based)
Graph Convolutional Neural Networks for Web-Scale Recommender Systems
- Rex Ying, Ruining He, Kaifeng Chen, Pong Eksombatchai, William L. Hamilton, Jure Leskovec
Stochastic Training of Graph Convolutional Networks with Variance Reduction
- Jianfei Chen, Jun Zhu, Le Song
A Higher-Order Graph Convolutional Layer
- Sami Abu-El-Haija, Nazanin Alipourfard, Hrayr Harutyunyan, Amol Kapoor, Bryan Perozzi
Higher-order Graph Convolutional Networks
- John Boaz Lee, Ryan A. Rossi, Xiangnan Kong, Sungchul Kim, Eunyee Koh, and Anup Rao

Other Survey Papers

Deep Learning on Graphs: A Survey
- Ziwei Zhang, Peng Cui, Wenwu Zhu
Graph Neural Networks: A Review of Methods and Applications
- Jie Zhou, Ganqu Cui, Zhengyan Zhang, Cheng Yang, Zhiyuan Liu, Maosong Sun
A Comprehensive Survey on Graph Neural Networks
- Zonghan Wu, Shirui Pan, Fengwen Chen, Guodong Long, Chengqi Zhang, Philip S. Yu
A Comprehensive Survey of Graph Embedding: Problems, Techniques and Applications
- Hongyun Cai, Vincent W. Zheng, Kevin Chen-Chuan Chang
How Powerful are Graph Neural Networks?
- Keyulu Xu, Weihua Hu, Jure Leskovec, Stefanie Jegelka. ICLR 2019.
Relational Representation Learning for Dynamic (Knowledge) Graphs: A Survey
- Seyed Mehran Kazemi, Rishab Goel, Kshitij Jain, Ivan Kobyzev, Akshay Sethi, Peter Forsyth, Pascal Poupart

Others

Temporal Convolutional Networks: A Unified Approach to Action Segmentation
- Colin Lea, Rene Vidal, Austin Reiter, Gregory D. Hager
What to Do Next: Modeling User Behaviors by Time-LSTM
- Yu Zhu, Hao Li, Yikang Liao, Beidou Wang, Ziyu Guan, Haifeng Liu, Deng Cai. IJCAI 2017.
Patient Subtyping via Time-Aware LSTM Networks
- Inci M. Baytas, Cao Xiao, Xi Zhang, Fei Wang, Anil K. Jain, Jiayu Zhou. KDD 2017.