Input Graph

Input graphs represent data as interconnected nodes and edges, enabling analysis of complex relationships in diverse domains. Current research focuses on improving graph neural network (GNN) performance by addressing issues like imbalanced data, over-smoothing, and computational cost, often through techniques such as data augmentation, prompt tuning, and graph sparsification. These advancements are driving progress in various applications, including node classification, graph generation, and action recognition, by enhancing model robustness, efficiency, and interpretability. The development of more powerful and efficient GNNs for handling large and complex input graphs remains a key area of ongoing investigation.

Papers

September 9, 2024

Graffin: Stand for Tails in Imbalanced Node Classification
Xiaorui Qi, Yanlong Wen, Xiaojie Yuan
Graph Representation Learning Node Representation Tail Class Thin Tail Input Graph Imbalanced Node Classification

August 6, 2024

June 25, 2024

Preserving Node Distinctness in Graph Autoencoders via Similarity Distillation
Ge Chen, Yulan Hu, Sheng Ouyang, Yong Liu, Cuicui Luo
Node Representation Encoder Decoder Architecture Graph Autoencoders Input Graph Graph Reconstruction Generative Self Supervised

March 21, 2024

Exploring Task Unification in Graph Representation Learning via Generative Approach
Yulan Hu, Sheng Ouyang, Zhirui Yang, Ge Chen, Junchen Wan, Xiao Wang, Yong Liu
Self Supervised Graph Representation Learning Generative Approach Graph Level Task Graph Autoencoders Input Graph Graph Task Finite Unification Set

March 14, 2024

Robust Subgraph Learning by Monitoring Early Training Representations
Sepideh Neshatfar, Salimeh Yasaei Sekeh
Adversarial Attack Adversarial Robustness Graph Learning Pre Trained Representation Input Graph Robust Graph

February 16, 2024

Subgraph-level Universal Prompt Tuning
Junhyun Lee, Wooseong Yang, Jaewoo Kang
Prompt Tuning Input Graph Prompt Tuning Method

December 13, 2023

Curriculum-Enhanced Residual Soft An-Isotropic Normalization for Over-smoothness in Deep GNNs
Jin Li, Qirong Zhang, Shuling Xu, Xinlong Chen, Longkun Guo, Yang-Geng Fu
Deep Network Node Embeddings Undisciplined Over Smoothing Input Graph

December 9, 2023

Exploring Sparsity in Graph Transformers
Chuang Liu, Yibing Zhan, Xueqi Ma, Liang Ding, Dapeng Tao, Jia Wu, Wenbin Hu, Bo Du
Graph Transformer Graph Level Task Based Pruning Input Graph Exploiting Sparsity

October 3, 2023

Probabilistically Rewired Message-Passing Neural Networks
Chendi Qian, Andrei Manolache, Kareem Ahmed, Zhe Zeng, Guy Van den Broeck, Mathias Niepert, Christopher Morris
Neural Network Probabilistic Model Graph Structure Message Passing Input Graph

June 6, 2023

How does over-squashing affect the power of GNNs?
Francesco Di Giovanni, T. Konstantin Rusch, Michael M. Bronstein, Andreea Deac, Marc Lackenby, Siddhartha Mishra, Petar Veličković
Graph Neural Network Real Power Message Passing Neural Network Input Graph Squashing Mitigation Approach

May 8, 2023

SEGA: Structural Entropy Guided Anchor View for Graph Contrastive Learning
Junran Wu, Xueyuan Chen, Bowen Shi, Shangzhe Li, Ke Xu
Contrastive Learning Graph Classification Graph Information Bottleneck Input Graph

February 7, 2023

Learning to Count Isomorphisms with Graph Neural Networks
Xingtong Yu, Zemin Liu, Yuan Fang, Xinming Zhang
LeArning Abstract Graph Neural Network Input Graph Subgraph Pattern Subgraph Isomorphism Homomorphism Count

November 21, 2022

Diffusion-Based Scene Graph to Image Generation with Masked Contrastive Pre-Training
Ling Yang, Zhilin Huang, Yang Song, Shenda Hong, Guohao Li, Wentao Zhang, Bin Cui, Bernard Ghanem, Ming-Hsuan Yang
Image Generation Scene Graph Input Graph

September 15, 2022

Graph-to-Text Generation with Dynamic Structure Pruning
Liang Li, Ruiying Geng, Bowen Li, Can Ma, Yinliang Yue, Binhua Li, Yongbin Li
Cross Attention Structural Pruning Input Graph Structure Encoder Feature Graph Graph to Text

July 26, 2022

Planning and Learning: Path-Planning for Autonomous Vehicles, a Review of the Literature
Kevin Osanlou, Christophe Guettier, Tristan Cazenave, Eric Jacopin
LeArning Abstract Autonomous Vehicle Narrative Review Task Planning Planning Algorithm English Literature Temporal Planning Input Graph

April 1, 2022

Graph-in-Graph (GiG): Learning interpretable latent graphs in non-Euclidean domain for biological and healthcare applications
Kamilia Mullakaeva, Luca Cosmo, Anees Kazi, Seyed-Ahmad Ahmadi, Nassir Navab, Michael M. Bronstein
Graph Network Latent Graph Healthcare Application Input Graph Small Graph Non Euclidean Domain

February 22, 2022

Message passing all the way up
Petar Veličković
Graph Neural Network Graph Drawing Graph Representation New Way System Message Input Graph Pairwise Alignment

January 15, 2022

Theoretical analysis and computation of the sample Frechet mean for sets of large graphs based on spectral information
Daniel Ferguson, Francois G. Meyer
Graph Drawing Computation Method Theoretical Analysis Large Graph Spectral Information Undirected Graph Input Graph Graph Structure Information

January 7, 2022

MGAE: Masked Autoencoders for Self-Supervised Learning on Graphs
Qiaoyu Tan, Ninghao Liu, Xiao Huang, Rui Chen, Soo-Hyun Choi, Xia Hu
Self Supervised Learning Graph Drawing Supervised Autoencoder Graph Data Graph AutoEncoder Input Graph Graph Masked Masked Graph