JointHOI jointly generates hand-object motion and distance-based contact maps in one diffusion stage to improve temporal stability and physical plausibility over prior multi-stage HOI methods.
JAM-Flow: Joint Audio-Motion Synthesis with Flow Matching
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abstract
The intrinsic link between facial motion and speech is often overlooked in generative modeling, where talking head synthesis and text-to-speech (TTS) are typically addressed as separate tasks. This paper introduces JAM-Flow, a unified framework to simultaneously synthesize and condition on both facial motion and speech. Our approach leverages flow matching and a novel Multi-Modal Diffusion Transformer (MM-DiT) architecture, integrating specialized Motion-DiT and Audio-DiT modules. These are coupled via selective joint attention layers and incorporate key architectural choices, such as temporally aligned positional embeddings and localized joint attention masking, to enable effective cross-modal interaction while preserving modality-specific strengths. Trained with an inpainting-style objective, JAM-Flow supports a wide array of conditioning inputs-including text, reference audio, and reference motion-facilitating tasks such as synchronized talking head generation from text, audio-driven animation, and much more, within a single, coherent model. JAM-Flow significantly advances multi-modal generative modeling by providing a practical solution for holistic audio-visual synthesis. project page: https://joonghyuk.com/jamflow-web
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cs.CV 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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JointHOI: Jointly Generating Contact Maps Enhances Hand Object Interaction Generation
JointHOI jointly generates hand-object motion and distance-based contact maps in one diffusion stage to improve temporal stability and physical plausibility over prior multi-stage HOI methods.