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MERLOT Reserve: Neural Script Knowledge through Vision and Language and Sound

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arxiv 2201.02639 v4 pith:BTF466H4 submitted 2022-01-07 cs.CV cs.CLcs.LGcs.SDeess.AS

MERLOT Reserve: Neural Script Knowledge through Vision and Language and Sound

classification cs.CV cs.CLcs.LGcs.SDeess.AS
keywords audiolearnsmultimodalmerlotmodelobjectivereservevideo
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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As humans, we navigate a multimodal world, building a holistic understanding from all our senses. We introduce MERLOT Reserve, a model that represents videos jointly over time -- through a new training objective that learns from audio, subtitles, and video frames. Given a video, we replace snippets of text and audio with a MASK token; the model learns by choosing the correct masked-out snippet. Our objective learns faster than alternatives, and performs well at scale: we pretrain on 20 million YouTube videos. Empirical results show that MERLOT Reserve learns strong multimodal representations. When finetuned, it sets state-of-the-art on Visual Commonsense Reasoning (VCR), TVQA, and Kinetics-600; outperforming prior work by 5%, 7%, and 1.5% respectively. Ablations show that these tasks benefit from audio pretraining -- even VCR, a QA task centered around images (without sound). Moreover, our objective enables out-of-the-box prediction, revealing strong multimodal commonsense understanding. In a fully zero-shot setting, our model obtains competitive results on four video tasks, even outperforming supervised approaches on the recently proposed Situated Reasoning (STAR) benchmark. We analyze why audio enables better vision-language representations, suggesting significant opportunities for future research. We conclude by discussing ethical and societal implications of multimodal pretraining.

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