Related papers: A-BDD: Leveraging Data Augmentations for Safe Autonomous Driving in Adverse Weather and Lighting

A-BDD: Leveraging Data Augmentations for Safe Autonomous Driving in Adverse Weather and Lighting

URL: http://arxiv.org/abs/2408.06071v1
Date: Mon, 12 Aug 2024 11:44:47 GMT
Title: A-BDD: Leveraging Data Augmentations for Safe Autonomous Driving in Adverse Weather and Lighting
Authors: Felix Assion, Florens Gressner, Nitin Augustine, Jona Klemenc, Ahmed Hammam, Alexandre Krattinger, Holger Trittenbach, Sascha Riemer,
Abstract summary: We present A-BDD, a large set of over 60,000 synthetically augmented images based on BDD100K. The dataset contains augmented data for rain, fog, overcast and sunglare/shadow with varying intensity levels. We provide evidence that data augmentations can play a pivotal role in closing performance gaps in adverse weather and lighting conditions.
Score: 36.58899868946257
License: http://creativecommons.org/licenses/by/4.0/
Abstract: High-autonomy vehicle functions rely on machine learning (ML) algorithms to understand the environment. Despite displaying remarkable performance in fair weather scenarios, perception algorithms are heavily affected by adverse weather and lighting conditions. To overcome these difficulties, ML engineers mainly rely on comprehensive real-world datasets. However, the difficulties in real-world data collection for critical areas of the operational design domain (ODD) often means synthetic data is required for perception training and safety validation. Thus, we present A-BDD, a large set of over 60,000 synthetically augmented images based on BDD100K that are equipped with semantic segmentation and bounding box annotations (inherited from the BDD100K dataset). The dataset contains augmented data for rain, fog, overcast and sunglare/shadow with varying intensity levels. We further introduce novel strategies utilizing feature-based image quality metrics like FID and CMMD, which help identify useful augmented and real-world data for ML training and testing. By conducting experiments on A-BDD, we provide evidence that data augmentations can play a pivotal role in closing performance gaps in adverse weather and lighting conditions.

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