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Main Authors: Introvigne, Marco, Ramazzina, Andrea, Walz, Stefanie, Scheuble, Dominik, Bijelic, Mario
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.19305
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author Introvigne, Marco
Ramazzina, Andrea
Walz, Stefanie
Scheuble, Dominik
Bijelic, Mario
author_facet Introvigne, Marco
Ramazzina, Andrea
Walz, Stefanie
Scheuble, Dominik
Bijelic, Mario
contents Current autonomous driving technologies are being rolled out in geo-fenced areas with well-defined operation conditions such as time of operation, area, weather conditions and road conditions. In this way, challenging conditions as adverse weather, slippery road or densely-populated city centers can be excluded. In order to lift the geo-fenced restriction and allow a more dynamic availability of autonomous driving functions, it is necessary for the vehicle to autonomously perform an environment condition assessment in real time to identify when the system cannot operate safely and either stop operation or require the resting passenger to take control. In particular, adverse-weather challenges are a fundamental limitation as sensor performance degenerates quickly, prohibiting the use of sensors such as cameras to locate and monitor road signs, pedestrians or other vehicles. To address this issue, we train a deep learning model to identify outdoor weather and dangerous road conditions, enabling a quick reaction to new situations and environments. We achieve this by introducing an improved taxonomy and label hierarchy for a state-of-the-art adverse-weather dataset, relabelling it with a novel semi-automated labeling pipeline. Using the novel proposed dataset and hierarchy, we train RECNet, a deep learning model for the classification of environment conditions from a single RGB frame. We outperform baseline models by relative 16% in F1- Score, while maintaining a real-time capable performance of 20 Hz.
format Preprint
id arxiv_https___arxiv_org_abs_2405_19305
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Real-Time Environment Condition Classification for Autonomous Vehicles
Introvigne, Marco
Ramazzina, Andrea
Walz, Stefanie
Scheuble, Dominik
Bijelic, Mario
Computer Vision and Pattern Recognition
Current autonomous driving technologies are being rolled out in geo-fenced areas with well-defined operation conditions such as time of operation, area, weather conditions and road conditions. In this way, challenging conditions as adverse weather, slippery road or densely-populated city centers can be excluded. In order to lift the geo-fenced restriction and allow a more dynamic availability of autonomous driving functions, it is necessary for the vehicle to autonomously perform an environment condition assessment in real time to identify when the system cannot operate safely and either stop operation or require the resting passenger to take control. In particular, adverse-weather challenges are a fundamental limitation as sensor performance degenerates quickly, prohibiting the use of sensors such as cameras to locate and monitor road signs, pedestrians or other vehicles. To address this issue, we train a deep learning model to identify outdoor weather and dangerous road conditions, enabling a quick reaction to new situations and environments. We achieve this by introducing an improved taxonomy and label hierarchy for a state-of-the-art adverse-weather dataset, relabelling it with a novel semi-automated labeling pipeline. Using the novel proposed dataset and hierarchy, we train RECNet, a deep learning model for the classification of environment conditions from a single RGB frame. We outperform baseline models by relative 16% in F1- Score, while maintaining a real-time capable performance of 20 Hz.
title Real-Time Environment Condition Classification for Autonomous Vehicles
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2405.19305