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arxiv 2502.19694 v2 pith:47ZGZ5MP submitted 2025-02-27 cs.CV cs.AIcs.LG

BEVDiffuser: Plug-and-Play Diffusion Model for BEV Denoising with Ground-Truth Guidance

classification cs.CV cs.AIcs.LG
keywords bevdiffuserdenoisingobjectrepresentationschallengingdetectiondiffusionexisting
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Bird's-eye-view (BEV) representations play a crucial role in autonomous driving tasks. Despite recent advancements in BEV generation, inherent noise, stemming from sensor limitations and the learning process, remains largely unaddressed, resulting in suboptimal BEV representations that adversely impact the performance of downstream tasks. To address this, we propose BEVDiffuser, a novel diffusion model that effectively denoises BEV feature maps using the ground-truth object layout as guidance. BEVDiffuser can be operated in a plug-and-play manner during training time to enhance existing BEV models without requiring any architectural modifications. Extensive experiments on the challenging nuScenes dataset demonstrate BEVDiffuser's exceptional denoising and generation capabilities, which enable significant enhancement to existing BEV models, as evidenced by notable improvements of 12.3\% in mAP and 10.1\% in NDS achieved for 3D object detection without introducing additional computational complexity. Moreover, substantial improvements in long-tail object detection and under challenging weather and lighting conditions further validate BEVDiffuser's effectiveness in denoising and enhancing BEV representations.

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Cited by 1 Pith paper

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  1. BEV-Denoise: Learning Intrinsic Noise for Accurate Bird's-Eye-View Semantic Segmentation

    cs.CV 2026-06 unverdicted novelty 3.0

    BEV-Denoise applies a DDPM-inspired UNet to estimate and remove intrinsic noise from BEV features, improving semantic segmentation when added to existing view transformation models on nuScenes.