SOTAVerified

Knowledge Graph Completion

Knowledge graphs $G$ are represented as a collection of triples $\{(h, r, t)\}\subseteq E\times R\times E$, where $E$ and $R$ are the entity set and relation set. The task of Knowledge Graph Completion is to either predict unseen relations $r$ between two existing entities: $(h, ?, t)$ or predict the tail entity $t$ given the head entity and the query relation: $(h, r, ?)$.

Source: One-Shot Relational Learning for Knowledge Graphs

Papers

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Showing 326350 of 482 papers

TitleStatusHype
CAFE: Knowledge graph completion using neighborhood-aware featuresCode0
Is Knowledge Embedding Fully Exploited in Language Understanding? An Empirical Study0
An Adversarial Transfer Network for Knowledge Representation LearningCode0
Relational Learning with Gated and Attentive Neighbor Aggregator for Few-Shot Knowledge Graph CompletionCode1
Mixed-Curvature Multi-Relational Graph Neural Network for Knowledge Graph Completion0
Multilingual Knowledge Graph Completion with Joint Relation and Entity Alignment0
TIE: A Framework for Embedding-based Incremental Temporal Knowledge Graph CompletionCode1
Improving Hyper-Relational Knowledge Graph CompletionCode0
Membership Inference Attacks on Knowledge Graphs0
NePTuNe: Neural Powered Tucker Network for Knowledge Graph CompletionCode1
Node Co-occurrence based Graph Neural Networks for Knowledge Graph Link PredictionCode1
Multiple Run Ensemble Learning with Low-Dimensional Knowledge Graph EmbeddingsCode0
Text-guided Legal Knowledge Graph ReasoningCode1
Switch Spaces: Learning Product Spaces with Sparse Gating0
Representing Hierarchical Structure by Using Cone Embedding0
OntoZSL: Ontology-enhanced Zero-shot LearningCode1
A shallow neural model for relation predictionCode0
Knowledge Graph Completion with Text-aided Regularization0
Quantum and Translation Embedding for Knowledge Graph Completion0
T-GAP: Learning to Walk across Time for Temporal Knowledge Graph Completion0
Biomedical Knowledge Graph Refinement and Completion using Graph Representation Learning and Top-K Similarity Measure0
Learning from History: Modeling Temporal Knowledge Graphs with Sequential Copy-Generation NetworksCode1
Context-Enhanced Entity and Relation Embedding for Knowledge Graph Completion0
Big Green at WNUT 2020 Shared Task-1: Relation Extraction as Contextualized Sequence Classification0
Relation Specific Transformations for Open World Knowledge Graph CompletionCode0
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All datasetsFB15k-237DBP-5L (English)DBP-5L (Greek)DPB-5L (French)WN18RRDBbook2014MovieLens 1M

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1KBGATHits@1062.6Unverified
2HAKEHits@1054.2Unverified
3PKGCHits@1048.7Unverified
4KBATHits@146Unverified
#ModelMetricClaimedVerifiedStatus
1JMACMRR44.6Unverified
2AlignKGCMRR41.3Unverified
3SS-AGAMRR32.1Unverified
#ModelMetricClaimedVerifiedStatus
1JMACMRR71.7Unverified
2AlignKGCMRR69.4Unverified
3SS-AGAMRR35.3Unverified
#ModelMetricClaimedVerifiedStatus
1JMACMRR64.5Unverified
2AlignKGCMRR59.5Unverified
3SS-AGAMRR36.6Unverified
#ModelMetricClaimedVerifiedStatus
1HAKEHits@30.52Unverified
2KBGATHits@30.48Unverified
#ModelMetricClaimedVerifiedStatus
1KTUP (soft)Hits@1060.75Unverified
#ModelMetricClaimedVerifiedStatus
1KTUP (soft)Hits@1048.9Unverified