ROMA: Run-Time Object Detection to Maximize Real-Time Accuracy
Abstract
This paper analyzes the effects of dynamically varying video contents and detection latency on the real-time detection accuracy of a detector and proposes a new run-time accuracy variation model, ROMA, based on the findings from the analysis. ROMA is designed to select an optimal detector out of a set of detectors in real time without label information to maximize real-time object detection accuracy. ROMA utilizing four YOLOv4 detectors on an NVIDIA Jetson Nano shows real-time accuracy improvements by 4 to 37% for a scenario of dynamically varying video contents and detection latency consisting of MOT17Det and MOT20Det datasets, compared to individual YOLOv4 detectors and two state-of-the-art runtime techniques.
Cite
Text
Lee et al. "ROMA: Run-Time Object Detection to Maximize Real-Time Accuracy." Winter Conference on Applications of Computer Vision, 2023.Markdown
[Lee et al. "ROMA: Run-Time Object Detection to Maximize Real-Time Accuracy." Winter Conference on Applications of Computer Vision, 2023.](https://mlanthology.org/wacv/2023/lee2023wacv-roma/)BibTeX
@inproceedings{lee2023wacv-roma,
title = {{ROMA: Run-Time Object Detection to Maximize Real-Time Accuracy}},
author = {Lee, JunKyu and Varghese, Blesson and Vandierendonck, Hans},
booktitle = {Winter Conference on Applications of Computer Vision},
year = {2023},
pages = {6405-6414},
url = {https://mlanthology.org/wacv/2023/lee2023wacv-roma/}
}