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Hauptverfasser: Tagiew, Rustam, Köppel, Martin, Schwalbe, Karsten, Denzler, Patrick, Neumaier, Philipp, Klockau, Tobias, Boekhoff, Martin, Klasek, Pavel, Tilly, Roman
Format: Preprint
Veröffentlicht: 2023
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2305.03001
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author Tagiew, Rustam
Köppel, Martin
Schwalbe, Karsten
Denzler, Patrick
Neumaier, Philipp
Klockau, Tobias
Boekhoff, Martin
Klasek, Pavel
Tilly, Roman
author_facet Tagiew, Rustam
Köppel, Martin
Schwalbe, Karsten
Denzler, Patrick
Neumaier, Philipp
Klockau, Tobias
Boekhoff, Martin
Klasek, Pavel
Tilly, Roman
contents To achieve a driverless train operation on mainline railways, actual and potential obstacles for the train's driveway must be detected automatically by appropriate sensor systems. Machine learning algorithms have proven to be powerful tools for this task during the last years. However, these algorithms require large amounts of high-quality annotated data containing railway-specific objects as training data. Unfortunately, all of the publicly available datasets that tackle this requirement are restricted in some way. Therefore, this paper presents OSDaR23, a multi-sensor dataset of 45 subsequences acquired in Hamburg, Germany, in September 2021, that was created to foster driverless train operation on mainline railways. The sensor setup consists of multiple calibrated and synchronized infrared (IR) and visual (RGB) cameras, lidars, a radar, and position and acceleration sensors mounted on the front of a rail vehicle. In addition to the raw data, the dataset contains 204091 polyline, polygonal, rectangle, and cuboid annotations in total for 20 different object classes. It is the first publicly available multi-sensor dataset annotated with a variety of object classes that are relevant for the railway context. OSDaR23, available at data.fid-move.de/dataset/osdar23, can also be used for tasks beyond collision prediction, which are listed in this paper.
format Preprint
id arxiv_https___arxiv_org_abs_2305_03001
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle OSDaR23: Open Sensor Data for Rail 2023
Tagiew, Rustam
Köppel, Martin
Schwalbe, Karsten
Denzler, Patrick
Neumaier, Philipp
Klockau, Tobias
Boekhoff, Martin
Klasek, Pavel
Tilly, Roman
Computer Vision and Pattern Recognition
Robotics
68T40
I.2.9
To achieve a driverless train operation on mainline railways, actual and potential obstacles for the train's driveway must be detected automatically by appropriate sensor systems. Machine learning algorithms have proven to be powerful tools for this task during the last years. However, these algorithms require large amounts of high-quality annotated data containing railway-specific objects as training data. Unfortunately, all of the publicly available datasets that tackle this requirement are restricted in some way. Therefore, this paper presents OSDaR23, a multi-sensor dataset of 45 subsequences acquired in Hamburg, Germany, in September 2021, that was created to foster driverless train operation on mainline railways. The sensor setup consists of multiple calibrated and synchronized infrared (IR) and visual (RGB) cameras, lidars, a radar, and position and acceleration sensors mounted on the front of a rail vehicle. In addition to the raw data, the dataset contains 204091 polyline, polygonal, rectangle, and cuboid annotations in total for 20 different object classes. It is the first publicly available multi-sensor dataset annotated with a variety of object classes that are relevant for the railway context. OSDaR23, available at data.fid-move.de/dataset/osdar23, can also be used for tasks beyond collision prediction, which are listed in this paper.
title OSDaR23: Open Sensor Data for Rail 2023
topic Computer Vision and Pattern Recognition
Robotics
68T40
I.2.9
url https://arxiv.org/abs/2305.03001