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5 results on '"Wang, Chenting"'

1. TimeSuite: Improving MLLMs for Long Video Understanding via Grounded Tuning

Author

Zeng, Xiangyu, Li, Kunchang, Wang, Chenting, Li, Xinhao, Jiang, Tianxiang, Yan, Ziang, Li, Songze, Shi, Yansong, Yue, Zhengrong, Wang, Yi, Wang, Yali, Qiao, Yu, and Wang, Limin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Multimedia
Abstract

Multimodal Large Language Models (MLLMs) have demonstrated impressive performance in short video understanding. However, understanding long-form videos still remains challenging for MLLMs. This paper proposes TimeSuite, a collection of new designs to adapt the existing short-form video MLLMs for long video understanding, including a simple yet efficient framework to process long video sequence, a high-quality video dataset for grounded tuning of MLLMs, and a carefully-designed instruction tuning task to explicitly incorporate the grounding supervision in the traditional QA format. Specifically, based on VideoChat, we propose our long-video MLLM, coined as VideoChat-T, by implementing a token shuffling to compress long video tokens and introducing Temporal Adaptive Position Encoding (TAPE) to enhance the temporal awareness of visual representation. Meanwhile, we introduce the TimePro, a comprehensive grounding-centric instruction tuning dataset composed of 9 tasks and 349k high-quality grounded annotations. Notably, we design a new instruction tuning task type, called Temporal Grounded Caption, to peform detailed video descriptions with the corresponding time stamps prediction. This explicit temporal location prediction will guide MLLM to correctly attend on the visual content when generating description, and thus reduce the hallucination risk caused by the LLMs. Experimental results demonstrate that our TimeSuite provides a successful solution to enhance the long video understanding capability of short-form MLLM, achieving improvement of 5.6% and 6.8% on the benchmarks of Egoschema and VideoMME, respectively. In addition, VideoChat-T exhibits robust zero-shot temporal grounding capabilities, significantly outperforming the existing state-of-the-art MLLMs. After fine-tuning, it performs on par with the traditional supervised expert models.

Published
2024

2. InternVideo2: Scaling Foundation Models for Multimodal Video Understanding

Author

Wang, Yi, Li, Kunchang, Li, Xinhao, Yu, Jiashuo, He, Yinan, Wang, Chenting, Chen, Guo, Pei, Baoqi, Yan, Ziang, Zheng, Rongkun, Xu, Jilan, Wang, Zun, Shi, Yansong, Jiang, Tianxiang, Li, Songze, Zhang, Hongjie, Huang, Yifei, Qiao, Yu, Wang, Yali, and Wang, Limin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We introduce InternVideo2, a new family of video foundation models (ViFM) that achieve the state-of-the-art results in video recognition, video-text tasks, and video-centric dialogue. Our core design is a progressive training approach that unifies the masked video modeling, crossmodal contrastive learning, and next token prediction, scaling up the video encoder size to 6B parameters. At the data level, we prioritize spatiotemporal consistency by semantically segmenting videos and generating video-audio-speech captions. This improves the alignment between video and text. Through extensive experiments, we validate our designs and demonstrate superior performance on over 60 video and audio tasks. Notably, our model outperforms others on various video-related dialogue and long video understanding benchmarks, highlighting its ability to reason and comprehend longer contexts. Code and models are available at https://github.com/OpenGVLab/InternVideo/tree/main/InternVideo2/., Comment: a technical report about video understanding (accepted to ECCV2024)

Published
2024

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