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Recurrent Temporal Aggregation Framework for Deep Video Inpainting.

Dahun Kim, Sanghyun Woo, Joon-Young Lee

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    |December 14, 2019
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    Summary
    This summary is machine-generated.

    This study introduces a novel recurrent framework for fast deep video inpainting, effectively filling spatio-temporal holes. The proposed models achieve state-of-the-art results in video decaptioning and general video inpainting tasks.

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    Area of Science:

    • Computer Vision
    • Artificial Intelligence
    • Machine Learning

    Background:

    • Deep learning has advanced single-image inpainting, but extending it to video remains challenging due to the temporal dimension.
    • Existing video inpainting methods struggle with spatio-temporal consistency and handling complex scenarios.

    Purpose of the Study:

    • To propose a recurrent temporal aggregation framework for fast and effective deep video inpainting.
    • To develop models capable of both blind video decaptioning and general video inpainting for arbitrary holes.

    Main Methods:

    • An encoder-decoder architecture is employed, aggregating information from multiple reference frames.
    • Recurrent feedback is utilized in an auto-regressive manner to ensure temporal consistency.
    • Two specific models, Blind Video Decaptioning Network (BVDNet) and Video Inpainting Network (VINet), are proposed.

    Main Results:

    • BVDNet achieved first place in the ECCV Chalearn 2018 LAP Inpainting Competition Track 2: Video Decaptioning.
    • VINet demonstrated superior performance in handling arbitrary and larger holes compared to state-of-the-art methods.
    • Qualitative and quantitative results show the framework's advantage in video inpainting.

    Conclusions:

    • The proposed recurrent temporal aggregation framework significantly improves deep video inpainting.
    • The developed models offer effective solutions for video decaptioning and general video inpainting.
    • The framework provides a robust approach for addressing spatio-temporal holes in videos.