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Autori principali: Lu, Hao, Tang, Jiaqi, Xu, Xinli, Cao, Xu, Zhang, Yunpeng, Wang, Guoqing, Du, Dalong, Chen, Hao, Chen, Yingcong
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2404.06700
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author Lu, Hao
Tang, Jiaqi
Xu, Xinli
Cao, Xu
Zhang, Yunpeng
Wang, Guoqing
Du, Dalong
Chen, Hao
Chen, Yingcong
author_facet Lu, Hao
Tang, Jiaqi
Xu, Xinli
Cao, Xu
Zhang, Yunpeng
Wang, Guoqing
Du, Dalong
Chen, Hao
Chen, Yingcong
contents The emergence of Multi-Camera 3D Object Detection (MC3D-Det), facilitated by bird's-eye view (BEV) representation, signifies a notable progression in 3D object detection. Scaling MC3D-Det training effectively accommodates varied camera parameters and urban landscapes, paving the way for the MC3D-Det foundation model. However, the multi-view fusion stage of the MC3D-Det method relies on the ill-posed monocular perception during training rather than surround refinement ability, leading to what we term "surround refinement degradation". To this end, our study presents a weak-to-strong eliciting framework aimed at enhancing surround refinement while maintaining robust monocular perception. Specifically, our framework employs weakly tuned experts trained on distinct subsets, and each is inherently biased toward specific camera configurations and scenarios. These biased experts can learn the perception of monocular degeneration, which can help the multi-view fusion stage to enhance surround refinement abilities. Moreover, a composite distillation strategy is proposed to integrate the universal knowledge of 2D foundation models and task-specific information. Finally, for MC3D-Det joint training, the elaborate dataset merge strategy is designed to solve the problem of inconsistent camera numbers and camera parameters. We set up a multiple dataset joint training benchmark for MC3D-Det and adequately evaluated existing methods. Further, we demonstrate the proposed framework brings a generalized and significant boost over multiple baselines. Our code is at \url{https://github.com/EnVision-Research/Scale-BEV}.
format Preprint
id arxiv_https___arxiv_org_abs_2404_06700
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Scaling Multi-Camera 3D Object Detection through Weak-to-Strong Eliciting
Lu, Hao
Tang, Jiaqi
Xu, Xinli
Cao, Xu
Zhang, Yunpeng
Wang, Guoqing
Du, Dalong
Chen, Hao
Chen, Yingcong
Computer Vision and Pattern Recognition
The emergence of Multi-Camera 3D Object Detection (MC3D-Det), facilitated by bird's-eye view (BEV) representation, signifies a notable progression in 3D object detection. Scaling MC3D-Det training effectively accommodates varied camera parameters and urban landscapes, paving the way for the MC3D-Det foundation model. However, the multi-view fusion stage of the MC3D-Det method relies on the ill-posed monocular perception during training rather than surround refinement ability, leading to what we term "surround refinement degradation". To this end, our study presents a weak-to-strong eliciting framework aimed at enhancing surround refinement while maintaining robust monocular perception. Specifically, our framework employs weakly tuned experts trained on distinct subsets, and each is inherently biased toward specific camera configurations and scenarios. These biased experts can learn the perception of monocular degeneration, which can help the multi-view fusion stage to enhance surround refinement abilities. Moreover, a composite distillation strategy is proposed to integrate the universal knowledge of 2D foundation models and task-specific information. Finally, for MC3D-Det joint training, the elaborate dataset merge strategy is designed to solve the problem of inconsistent camera numbers and camera parameters. We set up a multiple dataset joint training benchmark for MC3D-Det and adequately evaluated existing methods. Further, we demonstrate the proposed framework brings a generalized and significant boost over multiple baselines. Our code is at \url{https://github.com/EnVision-Research/Scale-BEV}.
title Scaling Multi-Camera 3D Object Detection through Weak-to-Strong Eliciting
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2404.06700