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Main Authors: Li, Leheng, Qiu, Weichao, Cai, Yingjie, Yan, Xu, Lian, Qing, Liu, Bingbing, Chen, Ying-Cong
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.00337
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author Li, Leheng
Qiu, Weichao
Cai, Yingjie
Yan, Xu
Lian, Qing
Liu, Bingbing
Chen, Ying-Cong
author_facet Li, Leheng
Qiu, Weichao
Cai, Yingjie
Yan, Xu
Lian, Qing
Liu, Bingbing
Chen, Ying-Cong
contents The advancement of autonomous driving is increasingly reliant on high-quality annotated datasets, especially in the task of 3D occupancy prediction, where the occupancy labels require dense 3D annotation with significant human effort. In this paper, we propose SyntheOcc, which denotes a diffusion model that Synthesize photorealistic and geometric-controlled images by conditioning Occupancy labels in driving scenarios. This yields an unlimited amount of diverse, annotated, and controllable datasets for applications like training perception models and simulation. SyntheOcc addresses the critical challenge of how to efficiently encode 3D geometric information as conditional input to a 2D diffusion model. Our approach innovatively incorporates 3D semantic multi-plane images (MPIs) to provide comprehensive and spatially aligned 3D scene descriptions for conditioning. As a result, SyntheOcc can generate photorealistic multi-view images and videos that faithfully align with the given geometric labels (semantics in 3D voxel space). Extensive qualitative and quantitative evaluations of SyntheOcc on the nuScenes dataset prove its effectiveness in generating controllable occupancy datasets that serve as an effective data augmentation to perception models.
format Preprint
id arxiv_https___arxiv_org_abs_2410_00337
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle SyntheOcc: Synthesize Geometric-Controlled Street View Images through 3D Semantic MPIs
Li, Leheng
Qiu, Weichao
Cai, Yingjie
Yan, Xu
Lian, Qing
Liu, Bingbing
Chen, Ying-Cong
Computer Vision and Pattern Recognition
The advancement of autonomous driving is increasingly reliant on high-quality annotated datasets, especially in the task of 3D occupancy prediction, where the occupancy labels require dense 3D annotation with significant human effort. In this paper, we propose SyntheOcc, which denotes a diffusion model that Synthesize photorealistic and geometric-controlled images by conditioning Occupancy labels in driving scenarios. This yields an unlimited amount of diverse, annotated, and controllable datasets for applications like training perception models and simulation. SyntheOcc addresses the critical challenge of how to efficiently encode 3D geometric information as conditional input to a 2D diffusion model. Our approach innovatively incorporates 3D semantic multi-plane images (MPIs) to provide comprehensive and spatially aligned 3D scene descriptions for conditioning. As a result, SyntheOcc can generate photorealistic multi-view images and videos that faithfully align with the given geometric labels (semantics in 3D voxel space). Extensive qualitative and quantitative evaluations of SyntheOcc on the nuScenes dataset prove its effectiveness in generating controllable occupancy datasets that serve as an effective data augmentation to perception models.
title SyntheOcc: Synthesize Geometric-Controlled Street View Images through 3D Semantic MPIs
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2410.00337