Night-to-Day: Online Image-to-Image Translation for Object Detection Within Autonomous Driving by Night
Autor: | Mostafa Hussein, Mark Schutera, Jochen Abhau, Ralf Mikut, Markus Reischl |
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Rok vydání: | 2021 |
Předmět: |
Control and Optimization
business.industry Computer science Detector Object (computer science) Object detection Domain (software engineering) Image (mathematics) Artificial Intelligence Automotive Engineering Benchmark (computing) Image translation Computer vision Artificial intelligence F1 score business |
Zdroj: | IEEE Transactions on Intelligent Vehicles. 6:480-489 |
ISSN: | 2379-8904 2379-8858 |
DOI: | 10.1109/tiv.2020.3039456 |
Popis: | Object detectors are central to autonomous driving and are widely used in driver assistance systems. Object detectors are trained on a finite amount of data within a specific domain, hampering detection performance when applying object detectors to samples from other domains during inference, an effect known as domain gap. Domain gap is a concern for data-driven applications, evoking repetitive retraining of networks when the applications unfold into other domains. With object detectors that have been trained on day images only, a domain gap can be observed in object detection by night. Training object detectors on night images is critical because of the enormous effort required to generate an adequate amount of diversely labeled data, and existing data sets often tend to overfit specific domain characteristics. For the first time, this work proposes adapting domains by online image-to-image translation to expand an object detector's domain of operation. The domain gap is decreased without additional labeling effort and without having to retrain the object detector while unfolding into the target domain. The approach follows the concept of domain adaptation, shifting the target domain samples into the domain knownto the object detector (source domain). Firstly, the UNIT network is trained for domain adaptation and subsequently cast into an online domain adaptation module, which narrows down the domain gap. Domain adaptation capabilities are evaluated qualitatively by displaying translated samples and visualizing the domain shift through the 2D tSNE algorithm. We quantitatively benchmark the domain adaptation's influence on a state-of-the-art object detector, and on a retrained object detector, for mean average precision, mean recall, and the resulting F1-score. Our approach achieves an F1 score improvement of $5.27 \%$ within object detection by night when applying online domain adaptation. The evaluation is executed on the BDD100K benchmark data set. |
Databáze: | OpenAIRE |
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