Geometric Deep Learning for Autonomous Driving: Unlocking the Power of Graph Neural Networks With CommonRoad-Geometric

02/02/2023

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Heterogeneous graphs offer powerful data representations for traffic, given their ability to model the complex interaction effects among a varying number of traffic participants and the underlying road infrastructure. With the recent advent of graph neural networks (GNNs) as the accompanying deep learning framework, the graph structure can be efficiently leveraged for various machine learning applications such as trajectory prediction. As a first of its kind, our proposed Python framework offers an easy-to-use and fully customizable data processing pipeline to extract standardized graph datasets from traffic scenarios. Providing a platform for GNN-based autonomous driving research, it improves comparability between approaches and allows researchers to focus on model implementation instead of dataset curation.

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Geometric Deep Learning for Autonomous Driving: Unlocking the Power of Graph Neural Networks With CommonRoad-Geometric

Graph Neural Networks for Modelling Traffic Participant Interaction

Relation-based Motion Prediction using Traffic Scene Graphs

TAP: A Comprehensive Data Repository for Traffic Accident Prediction in Road Networks

Analyzing the Traffic of MANETs using Graph Neural Networks

Geometric Deep Learning: a Temperature Based Analysis of Graph Neural Networks

Unboxing the graph: Neural Relational Inference for Mobility Prediction

Spatiotemporal Graph Neural Networks with Uncertainty Quantification for Traffic Incident Risk Prediction

Geometric Deep Learning for Autonomous Driving: Unlocking the Power of Graph Neural Networks With CommonRoad-Geometric

Related Research

Graph Neural Networks for Modelling Traffic Participant Interaction

Relation-based Motion Prediction using Traffic Scene Graphs

TAP: A Comprehensive Data Repository for Traffic Accident Prediction in Road Networks

Analyzing the Traffic of MANETs using Graph Neural Networks

Geometric Deep Learning: a Temperature Based Analysis of Graph Neural Networks

Unboxing the graph: Neural Relational Inference for Mobility Prediction

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