SOTAVerified

Relational Reasoning

The goal of Relational Reasoning is to figure out the relationships among different entities, such as image pixels, words or sentences, human skeletons or interactive moving agents.

Source: Social-WaGDAT: Interaction-aware Trajectory Prediction via Wasserstein Graph Double-Attention Network

Papers

Recently AddedMost HypedMost ActiveNeeds VerificationMost Verified

Showing 5175 of 483 papers

TitleStatusHype
Relational Learning in Pre-Trained Models: A Theory from Hypergraph Recovery Perspective0
Learning positional encodings in transformers depends on initialization0
Disentangling and Integrating Relational and Sensory Information in Transformer ArchitecturesCode0
MLPs Learn In-Context on Regression and Classification TasksCode1
Zero-Shot Relational Learning for Multimodal Knowledge GraphsCode0
TRIP: Temporal Residual Learning with Image Noise Prior for Image-to-Video Diffusion Models0
Skews in the Phenomenon Space Hinder Generalization in Text-to-Image GenerationCode0
Towards Human-Like Machine Comprehension: Few-Shot Relational Learning in Visually-Rich Documents0
SeCG: Semantic-Enhanced 3D Visual Grounding via Cross-modal Graph AttentionCode0
Deep Generative Models for Ultra-High Granularity Particle Physics Detector Simulation: A Voyage From Emulation to Extrapolation0
Boosting gets full Attention for Relational Learning0
Visual Reasoning in Object-Centric Deep Neural Networks: A Comparative Cognition ApproachCode0
FGeo-HyperGNet: Geometric Problem Solving Integrating Formal Symbolic System and Hypergraph Neural Network0
Position: Topological Deep Learning is the New Frontier for Relational Learning0
Pix2Code: Learning to Compose Neural Visual Concepts as ProgramsCode1
MolTC: Towards Molecular Relational Modeling In Language ModelsCode2
Multi-Agent Dynamic Relational Reasoning for Social Robot Navigation0
LLMs for Relational Reasoning: How Far are We?0
MLAD: A Unified Model for Multi-system Log Anomaly Detection0
Higher-order Relational Reasoning for Pedestrian Trajectory Prediction0
EarthVQA: Towards Queryable Earth via Relational Reasoning-Based Remote Sensing Visual Question AnsweringCode1
Interactive Autonomous Navigation with Internal State Inference and Interactivity Estimation0
zrLLM: Zero-Shot Relational Learning on Temporal Knowledge Graphs with Large Language ModelsCode1
When can transformers reason with abstract symbols?Code0
Large Language Models can Learn RulesCode1
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1CTP A4 Hops0.99Unverified