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SCENE: reasoning about traffic scenes using heterogeneous graph neural networks

SCENE: reasoning about traffic scenes using heterogeneous graph neural networks
SCENE: reasoning about traffic scenes using heterogeneous graph neural networks
Understanding traffic scenes requires considering heterogeneous information about dynamic agents and the static infrastructure. In this work we propose SCENE, a methodology to encode diverse traffic scenes in heterogeneous graphs and to reason about these graphs using a heterogeneous Graph Neural Network encoder and task-specific decoders. The heterogeneous graphs, whose structures are defined by an ontology, consist of different nodes with type-specific node features and different relations with type-specific edge features. In order to exploit all the information given by these graphs, we propose to use cascaded layers of graph convolution. The result is an encoding of the scene. Task-specific decoders can be applied to predict desired attributes of the scene. Extensive evaluation on two diverse binary node classification tasks show the main strength of this methodology: despite being generic, it even manages to outperform task-specific baselines. The further application of our methodology to the task of node classification in various knowledge graphs shows its transferability to other domains.
AI-based methods, behavior-based systems, semantic scene understanding
2377-3766
1531 - 1538
Monninger, Thomas
4b9da19d-b0db-44fa-81df-85cfa01bb716
Schmidt, Julian
1804dc47-f111-4b1d-93b6-0797ef125f7c
Rupprecht, Jan
f8794aa2-cffa-431d-8bcb-f3c0fd61e4cd
Raba, David
2ab4eef9-5565-461d-847e-866340bdc530
Jordan, Julian
f941b967-8ff6-45a7-a326-c50ba5658892
Frank, Daniel
3bbb8bf9-4f5d-4b1e-b3aa-fbb8f12f2c8b
Staab, Steffen
bf48d51b-bd11-4d58-8e1c-4e6e03b30c49
Dietmayer, Klaus
d99c53ff-b40e-4633-bcc0-180dea335bd2
Monninger, Thomas
4b9da19d-b0db-44fa-81df-85cfa01bb716
Schmidt, Julian
1804dc47-f111-4b1d-93b6-0797ef125f7c
Rupprecht, Jan
f8794aa2-cffa-431d-8bcb-f3c0fd61e4cd
Raba, David
2ab4eef9-5565-461d-847e-866340bdc530
Jordan, Julian
f941b967-8ff6-45a7-a326-c50ba5658892
Frank, Daniel
3bbb8bf9-4f5d-4b1e-b3aa-fbb8f12f2c8b
Staab, Steffen
bf48d51b-bd11-4d58-8e1c-4e6e03b30c49
Dietmayer, Klaus
d99c53ff-b40e-4633-bcc0-180dea335bd2

Monninger, Thomas, Schmidt, Julian, Rupprecht, Jan, Raba, David, Jordan, Julian, Frank, Daniel, Staab, Steffen and Dietmayer, Klaus (2023) SCENE: reasoning about traffic scenes using heterogeneous graph neural networks. IEEE Robotics and Automation Letters, 8 (3), 1531 - 1538. (doi:10.1109/LRA.2023.3234771).

Record type: Article

Abstract

Understanding traffic scenes requires considering heterogeneous information about dynamic agents and the static infrastructure. In this work we propose SCENE, a methodology to encode diverse traffic scenes in heterogeneous graphs and to reason about these graphs using a heterogeneous Graph Neural Network encoder and task-specific decoders. The heterogeneous graphs, whose structures are defined by an ontology, consist of different nodes with type-specific node features and different relations with type-specific edge features. In order to exploit all the information given by these graphs, we propose to use cascaded layers of graph convolution. The result is an encoding of the scene. Task-specific decoders can be applied to predict desired attributes of the scene. Extensive evaluation on two diverse binary node classification tasks show the main strength of this methodology: despite being generic, it even manages to outperform task-specific baselines. The further application of our methodology to the task of node classification in various knowledge graphs shows its transferability to other domains.

Text
2301.03512 - Accepted Manuscript
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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e-pub ahead of print date: 6 January 2023
Published date: 1 March 2023
Additional Information: Publisher Copyright: © 2016 IEEE.
Keywords: AI-based methods, behavior-based systems, semantic scene understanding
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Identifiers

Local EPrints ID: 475231
URI: http://eprints.soton.ac.uk/id/eprint/475231
DOI: doi:10.1109/LRA.2023.3234771
ISSN: 2377-3766
PURE UUID: 03671665-85ec-4b7b-83cb-e0444ce99e1d
ORCID for Steffen Staab: ORCID iD orcid.org/0000-0002-0780-4154

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Date deposited: 14 Mar 2023 17:45
Last modified: 17 Mar 2024 03:38

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Contributors

Author: Thomas Monninger
Author: Julian Schmidt
Author: Jan Rupprecht
Author: David Raba
Author: Julian Jordan
Author: Daniel Frank
Author: Steffen Staab ORCID iD
Author: Klaus Dietmayer

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