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Main Authors: Zemskova, Tatiana, Andryushenko, Solomon, Obrubov, Ilya, Khoruzhaia, Viktoriia, Eroshenko, Ekaterina, Derevyanka, Ekaterina, Yudin, Dmitry
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.04349
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author Zemskova, Tatiana
Andryushenko, Solomon
Obrubov, Ilya
Khoruzhaia, Viktoriia
Eroshenko, Ekaterina
Derevyanka, Ekaterina
Yudin, Dmitry
author_facet Zemskova, Tatiana
Andryushenko, Solomon
Obrubov, Ilya
Khoruzhaia, Viktoriia
Eroshenko, Ekaterina
Derevyanka, Ekaterina
Yudin, Dmitry
contents The ability to understand long videos is vital for embodied intelligent agents, because their effectiveness depends on how well they can accumulate, organize, and leverage long-horizon perceptual memories. Recently, multimodal LLMs have been gaining popularity for solving the long video understanding task due to their general ability to understand natural language and to leverage world knowledge. However, as the number of frames provided to an MLLM increases, the quality of its responses tends to degrade, and inference time grows. Therefore, when using MLLMs for long video understanding, a crucial step is selecting key frames from the video to answer user queries. In this work, we develop FocusGraph, a framework for keyframe selection for question answering over long egocentric videos. It leverages a lightweight trainable Scene-Caption LLM Selector that selects query-relevant clips based on their graph-based captions, and a training-free method for selecting keyframes from these clips. Unlike existing methods, the proposed Scene-Caption LLM Selector does not rely on the original sequence of low-resolution frames; instead, it operates on a compact textual representation of the scene. We then design a training-free Patch-wise Sparse-Flow Retention (PSFR) method to select keyframes from the resulting sequence of clips, which are fed into an MLLM to produce the final answer. Together, these components enable FocusGraph to achieve state-of-the-art results on challenging egocentric long-video question answering benchmarks, including FindingDory and HourVideo, while significantly reducing inference time relative to baseline approaches.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04349
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle FocusGraph: Graph-Structured Frame Selection for Embodied Long Video Question Answering
Zemskova, Tatiana
Andryushenko, Solomon
Obrubov, Ilya
Khoruzhaia, Viktoriia
Eroshenko, Ekaterina
Derevyanka, Ekaterina
Yudin, Dmitry
Computer Vision and Pattern Recognition
The ability to understand long videos is vital for embodied intelligent agents, because their effectiveness depends on how well they can accumulate, organize, and leverage long-horizon perceptual memories. Recently, multimodal LLMs have been gaining popularity for solving the long video understanding task due to their general ability to understand natural language and to leverage world knowledge. However, as the number of frames provided to an MLLM increases, the quality of its responses tends to degrade, and inference time grows. Therefore, when using MLLMs for long video understanding, a crucial step is selecting key frames from the video to answer user queries. In this work, we develop FocusGraph, a framework for keyframe selection for question answering over long egocentric videos. It leverages a lightweight trainable Scene-Caption LLM Selector that selects query-relevant clips based on their graph-based captions, and a training-free method for selecting keyframes from these clips. Unlike existing methods, the proposed Scene-Caption LLM Selector does not rely on the original sequence of low-resolution frames; instead, it operates on a compact textual representation of the scene. We then design a training-free Patch-wise Sparse-Flow Retention (PSFR) method to select keyframes from the resulting sequence of clips, which are fed into an MLLM to produce the final answer. Together, these components enable FocusGraph to achieve state-of-the-art results on challenging egocentric long-video question answering benchmarks, including FindingDory and HourVideo, while significantly reducing inference time relative to baseline approaches.
title FocusGraph: Graph-Structured Frame Selection for Embodied Long Video Question Answering
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2603.04349