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Auteurs principaux: Bao, Xiaoyi, Xie, Chenwei, Tang, Hao, Weng, Tingyu, Wang, Xiaofeng, Zheng, Yun, Wang, Xingang
Format: Preprint
Publié: 2025
Sujets:
Accès en ligne:https://arxiv.org/abs/2507.15569
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author Bao, Xiaoyi
Xie, Chenwei
Tang, Hao
Weng, Tingyu
Wang, Xiaofeng
Zheng, Yun
Wang, Xingang
author_facet Bao, Xiaoyi
Xie, Chenwei
Tang, Hao
Weng, Tingyu
Wang, Xiaofeng
Zheng, Yun
Wang, Xingang
contents In recent years, the introduction of Multi-modal Large Language Models (MLLMs) into video understanding tasks has become increasingly prevalent. However, how to effectively integrate temporal information remains a critical research focus. Traditional approaches treat spatial and temporal information separately. Due to issues like motion blur, it is challenging to accurately represent the spatial information of rapidly moving objects. This can lead to temporally important regions being underemphasized during spatial feature extraction, which in turn hinders accurate spatio-temporal interaction and video understanding. To address this limitation, we propose an innovative video representation method called Dynamic-Image (DynImg). Specifically, we introduce a set of non-key frames as temporal prompts to highlight the spatial areas containing fast-moving objects. During the process of visual feature extraction, these prompts guide the model to pay additional attention to the fine-grained spatial features corresponding to these regions. Moreover, to maintain the correct sequence for DynImg, we employ a corresponding 4D video Rotary Position Embedding. This retains both the temporal and spatial adjacency of DynImg, helping MLLM understand the spatio-temporal order within this combined format. Experimental evaluations reveal that DynImg surpasses the state-of-the-art methods by approximately 2% across multiple video understanding benchmarks, proving the effectiveness of our temporal prompts in enhancing video comprehension.
format Preprint
id arxiv_https___arxiv_org_abs_2507_15569
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle DynImg: Key Frames with Visual Prompts are Good Representation for Multi-Modal Video Understanding
Bao, Xiaoyi
Xie, Chenwei
Tang, Hao
Weng, Tingyu
Wang, Xiaofeng
Zheng, Yun
Wang, Xingang
Computer Vision and Pattern Recognition
In recent years, the introduction of Multi-modal Large Language Models (MLLMs) into video understanding tasks has become increasingly prevalent. However, how to effectively integrate temporal information remains a critical research focus. Traditional approaches treat spatial and temporal information separately. Due to issues like motion blur, it is challenging to accurately represent the spatial information of rapidly moving objects. This can lead to temporally important regions being underemphasized during spatial feature extraction, which in turn hinders accurate spatio-temporal interaction and video understanding. To address this limitation, we propose an innovative video representation method called Dynamic-Image (DynImg). Specifically, we introduce a set of non-key frames as temporal prompts to highlight the spatial areas containing fast-moving objects. During the process of visual feature extraction, these prompts guide the model to pay additional attention to the fine-grained spatial features corresponding to these regions. Moreover, to maintain the correct sequence for DynImg, we employ a corresponding 4D video Rotary Position Embedding. This retains both the temporal and spatial adjacency of DynImg, helping MLLM understand the spatio-temporal order within this combined format. Experimental evaluations reveal that DynImg surpasses the state-of-the-art methods by approximately 2% across multiple video understanding benchmarks, proving the effectiveness of our temporal prompts in enhancing video comprehension.
title DynImg: Key Frames with Visual Prompts are Good Representation for Multi-Modal Video Understanding
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2507.15569