SOTAVerified

Graph Learning

Graph learning is a branch of machine learning that focuses on the analysis and interpretation of data represented in graph form. In this context, a graph is a collection of nodes (or vertices) and edges, where nodes represent entities and edges represent the relationships or interactions between these entities. This structure is particularly useful for modeling complex networks found in various domains such as social networks, biological networks, and communication networks.

Graph learning leverages the relationships and structures within the graph to learn and make predictions. It includes techniques like graph neural networks (GNNs), which extend the concept of neural networks to handle graph-structured data. These models are adept at capturing the dependencies and influence of connected nodes, leading to more accurate predictions in scenarios where relationships play a key role.

Key applications of graph learning include recommender systems, drug discovery, social network analysis, and fraud detection. By utilizing the inherent structure of graph data, graph learning algorithms can uncover deep insights and patterns that are not apparent with traditional machine learning approaches.

Papers

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Showing 12511300 of 1570 papers

TitleStatusHype
Adversarial Weight Perturbation Improves Generalization in Graph Neural NetworksCode0
AdvSGM: Differentially Private Graph Learning via Adversarial Skip-gram ModelCode0
A Graph Dynamics Prior for Relational InferenceCode0
AGALE: A Graph-Aware Continual Learning Evaluation FrameworkCode0
A Higher-Order Semantic Dependency ParserCode0
Algorithms for Learning Graphs in Financial MarketsCode0
An Efficient Memory Module for Graph Few-Shot Class-Incremental LearningCode0
An open unified deep graph learning framework for discovering drug leadsCode0
A Quest for Structure: Jointly Learning the Graph Structure and Semi-Supervised ClassificationCode0
Architecture Matters: Uncovering Implicit Mechanisms in Graph Contrastive LearningCode0
Are Graph Embeddings the Panacea? An Empirical Survey from the Data Fitness PerspectiveCode0
arXiv4TGC: Large-Scale Datasets for Temporal Graph ClusteringCode0
A simple yet effective baseline for non-attributed graph classificationCode0
AttriReBoost: A Gradient-Free Propagation Optimization Method for Cold Start Mitigation in Attribute Missing GraphsCode0
A Unified Framework against Topology and Class ImbalanceCode0
A Unified Framework for Structured Graph Learning via Spectral ConstraintsCode0
A Unified Invariant Learning Framework for Graph ClassificationCode0
A Unifying Generative Model for Graph Learning Algorithms: Label Propagation, Graph Convolutions, and CombinationsCode0
AutoAC: Towards Automated Attribute Completion for Heterogeneous Graph Neural NetworkCode0
MetaGL: Evaluation-Free Selection of Graph Learning Models via Meta-LearningCode0
Between Linear and Sinusoidal: Rethinking the Time Encoder in Dynamic Graph LearningCode0
Blindness to Modality Helps Entailment Graph MiningCode0
BloomGML: Graph Machine Learning through the Lens of Bilevel OptimizationCode0
Boosting Short Text Classification with Multi-Source Information Exploration and Dual-Level Contrastive LearningCode0
Bridging the Gap of AutoGraph between Academia and Industry: Analysing AutoGraph Challenge at KDD Cup 2020Code0
BScNets: Block Simplicial Complex Neural NetworksCode0
CAFIN: Centrality Aware Fairness inducing IN-processing for Unsupervised Representation Learning on GraphsCode0
CatGCN: Graph Convolutional Networks with Categorical Node FeaturesCode0
Causal Bandits without Graph LearningCode0
Neural Causal Graph Collaborative FilteringCode0
CellCLAT: Preserving Topology and Trimming Redundancy in Self-Supervised Cellular Contrastive LearningCode0
CGC: Contrastive Graph Clustering for Community Detection and TrackingCode0
CliquePH: Higher-Order Information for Graph Neural Networks through Persistent Homology on Clique GraphsCode0
Collaborative Similarity Embedding for Recommender SystemsCode0
Consensus Graph Learning for Multi-view ClusteringCode0
Consistency and Discrepancy-Based Contrastive Tripartite Graph Learning for RecommendationsCode0
Constructing Sample-to-Class Graph for Few-Shot Class-Incremental LearningCode0
Contrastive Adaptive Propagation Graph Neural Networks for Efficient Graph LearningCode0
Cooperative Network Learning for Large-Scale and Decentralized GraphsCode0
CorrAdaptor: Adaptive Local Context Learning for Correspondence PruningCode0
Correlation-Distance Graph Learning for Treatment Response Prediction from rs-fMRICode0
Cross-Context Backdoor Attacks against Graph Prompt LearningCode0
Cycle Invariant Positional Encoding for Graph Representation LearningCode0
Data Augmentation View on Graph Convolutional Network and the Proposal of Monte Carlo Graph LearningCode0
Deceptive Fairness Attacks on Graphs via Meta LearningCode0
Decoupled Graph Energy-based Model for Node Out-of-Distribution Detection on Heterophilic GraphsCode0
Deepened Graph Auto-Encoders Help Stabilize and Enhance Link PredictionCode0
Deep Ensembles for Graphs with Higher-order DependenciesCode0
DeeperGCN: All You Need to Train Deeper GCNsCode0
DeepGAR: Deep Graph Learning for Analogical ReasoningCode0
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1HaloGraphNetR^20.97Unverified