Mirasol3B: A Multimodal Autoregressive model for time-aligned and contextual modalities
arxiv(2023)
摘要
One of the main challenges of multimodal learning is the need to combine
heterogeneous modalities (e.g., video, audio, text). For example, video and
audio are obtained at much higher rates than text and are roughly aligned in
time. They are often not synchronized with text, which comes as a global
context, e.g., a title, or a description. Furthermore, video and audio inputs
are of much larger volumes, and grow as the video length increases, which
naturally requires more compute dedicated to these modalities and makes
modeling of long-range dependencies harder.
We here decouple the multimodal modeling, dividing it into separate, focused
autoregressive models, processing the inputs according to the characteristics
of the modalities. We propose a multimodal model, called Mirasol3B, consisting
of an autoregressive component for the time-synchronized modalities (audio and
video), and an autoregressive component for the context modalities which are
not necessarily aligned in time but are still sequential. To address the
long-sequences of the video-audio inputs, we propose to further partition the
video and audio sequences in consecutive snippets and autoregressively process
their representations. To that end, we propose a Combiner mechanism, which
models the audio-video information jointly within a timeframe. The Combiner
learns to extract audio and video features from raw spatio-temporal signals,
and then learns to fuse these features producing compact but expressive
representations per snippet.
Our approach achieves the state-of-the-art on well established multimodal
benchmarks, outperforming much larger models. It effectively addresses the high
computational demand of media inputs by both learning compact representations,
controlling the sequence length of the audio-video feature representations, and
modeling their dependencies in time.
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