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Autori principali: Yan, Weiqi, Lin, Chenlu, Wang, Youbiao, Cai, Zhipeng, Lin, Xiuhong, Shi, Yangyang, Liu, Weiquan, Zang, Yu
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.01842
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author Yan, Weiqi
Lin, Chenlu
Wang, Youbiao
Cai, Zhipeng
Lin, Xiuhong
Shi, Yangyang
Liu, Weiquan
Zang, Yu
author_facet Yan, Weiqi
Lin, Chenlu
Wang, Youbiao
Cai, Zhipeng
Lin, Xiuhong
Shi, Yangyang
Liu, Weiquan
Zang, Yu
contents Event cameras have gained increasing popularity in computer vision due to their ultra-high dynamic range and temporal resolution. However, event networks heavily rely on task-specific designs due to the unstructured data distribution and spatial-temporal (S-T) inhomogeneity, making it hard to reuse existing architectures for new tasks. We propose OmniEvent, the first unified event representation learning framework that achieves SOTA performance across diverse tasks, fully removing the need of task-specific designs. Unlike previous methods that treat event data as 3D point clouds with manually tuned S-T scaling weights, OmniEvent proposes a decouple-enhance-fuse paradigm, where the local feature aggregation and enhancement is done independently on the spatial and temporal domains to avoid inhomogeneity issues. Space-filling curves are applied to enable large receptive fields while improving memory and compute efficiency. The features from individual domains are then fused by attention to learn S-T interactions. The output of OmniEvent is a grid-shaped tensor, which enables standard vision models to process event data without architecture change. With a unified framework and similar hyper-parameters, OmniEvent out-performs (tasks-specific) SOTA by up to 68.2% across 3 representative tasks and 10 datasets (Fig.1). Code will be ready in https://github.com/Wickyan/OmniEvent .
format Preprint
id arxiv_https___arxiv_org_abs_2508_01842
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle OmniEvent: Unified Event Representation Learning
Yan, Weiqi
Lin, Chenlu
Wang, Youbiao
Cai, Zhipeng
Lin, Xiuhong
Shi, Yangyang
Liu, Weiquan
Zang, Yu
Computer Vision and Pattern Recognition
Event cameras have gained increasing popularity in computer vision due to their ultra-high dynamic range and temporal resolution. However, event networks heavily rely on task-specific designs due to the unstructured data distribution and spatial-temporal (S-T) inhomogeneity, making it hard to reuse existing architectures for new tasks. We propose OmniEvent, the first unified event representation learning framework that achieves SOTA performance across diverse tasks, fully removing the need of task-specific designs. Unlike previous methods that treat event data as 3D point clouds with manually tuned S-T scaling weights, OmniEvent proposes a decouple-enhance-fuse paradigm, where the local feature aggregation and enhancement is done independently on the spatial and temporal domains to avoid inhomogeneity issues. Space-filling curves are applied to enable large receptive fields while improving memory and compute efficiency. The features from individual domains are then fused by attention to learn S-T interactions. The output of OmniEvent is a grid-shaped tensor, which enables standard vision models to process event data without architecture change. With a unified framework and similar hyper-parameters, OmniEvent out-performs (tasks-specific) SOTA by up to 68.2% across 3 representative tasks and 10 datasets (Fig.1). Code will be ready in https://github.com/Wickyan/OmniEvent .
title OmniEvent: Unified Event Representation Learning
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2508.01842