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Main Authors: Han, Longfei, Kefferpütz, Klaus, Beyerer, Jürgen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.18708
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author Han, Longfei
Kefferpütz, Klaus
Beyerer, Jürgen
author_facet Han, Longfei
Kefferpütz, Klaus
Beyerer, Jürgen
contents Extended Object Tracking (EOT) exploits the high resolution of modern sensors for detailed environmental perception. Combined with decentralized fusion, it contributes to a more scalable and robust perception system. This paper investigates the decentralized fusion of 3D EOT using a B-spline curve based model. The spline curve is used to represent the side-view profile, which is then extruded with a width to form a 3D shape. We use covariance intersection (CI) for the decentralized fusion and discuss the challenge of applying it to EOT. We further evaluate the tracking result of the decentralized fusion with simulated and real datasets of traffic scenarios. We show that the CI-based fusion can significantly improve the tracking performance for sensors with unfavorable perspective.
format Preprint
id arxiv_https___arxiv_org_abs_2504_18708
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Decentralized Fusion of 3D Extended Object Tracking based on a B-Spline Shape Model
Han, Longfei
Kefferpütz, Klaus
Beyerer, Jürgen
Robotics
Extended Object Tracking (EOT) exploits the high resolution of modern sensors for detailed environmental perception. Combined with decentralized fusion, it contributes to a more scalable and robust perception system. This paper investigates the decentralized fusion of 3D EOT using a B-spline curve based model. The spline curve is used to represent the side-view profile, which is then extruded with a width to form a 3D shape. We use covariance intersection (CI) for the decentralized fusion and discuss the challenge of applying it to EOT. We further evaluate the tracking result of the decentralized fusion with simulated and real datasets of traffic scenarios. We show that the CI-based fusion can significantly improve the tracking performance for sensors with unfavorable perspective.
title Decentralized Fusion of 3D Extended Object Tracking based on a B-Spline Shape Model
topic Robotics
url https://arxiv.org/abs/2504.18708