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Main Authors: Hyun-Bin, Oh, Takida, Yuhta, Uesaka, Toshimitsu, Oh, Tae-Hyun, Mitsufuji, Yuki
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.08282
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author Hyun-Bin, Oh
Takida, Yuhta
Uesaka, Toshimitsu
Oh, Tae-Hyun
Mitsufuji, Yuki
author_facet Hyun-Bin, Oh
Takida, Yuhta
Uesaka, Toshimitsu
Oh, Tae-Hyun
Mitsufuji, Yuki
contents Recent advances in Video-to-Audio (V2A) generation have achieved impressive perceptual quality and temporal synchronization, yet most models remain appearance-driven, capturing visual-acoustic correlations without considering the physical factors that shape real-world sounds. We present Physics-Aware Video-to-Audio Synthesis (PAVAS), a method that incorporates physical reasoning into a latent diffusion-based V2A generation through the Physics-Driven Audio Adapter (Phy-Adapter). The adapter receives object-level physical parameters estimated by the Physical Parameter Estimator (PPE), which uses a Vision-Language Model (VLM) to infer the moving-object mass and a segmentation-based dynamic 3D reconstruction module to recover its motion trajectory for velocity computation. These physical cues enable the model to synthesize sounds that reflect underlying physical factors. To assess physical realism, we curate VGG-Impact, a benchmark focusing on object-object interactions, and introduce Audio-Physics Correlation Coefficient (APCC), an evaluation metric that measures consistency between physical and auditory attributes. Comprehensive experiments show that PAVAS produces physically plausible and perceptually coherent audio, outperforming existing V2A models in both quantitative and qualitative evaluations. Visit https://physics-aware-video-to-audio-synthesis.github.io for demo videos.
format Preprint
id arxiv_https___arxiv_org_abs_2512_08282
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle PAVAS: Physics-Aware Video-to-Audio Synthesis
Hyun-Bin, Oh
Takida, Yuhta
Uesaka, Toshimitsu
Oh, Tae-Hyun
Mitsufuji, Yuki
Computer Vision and Pattern Recognition
Multimedia
Sound
Recent advances in Video-to-Audio (V2A) generation have achieved impressive perceptual quality and temporal synchronization, yet most models remain appearance-driven, capturing visual-acoustic correlations without considering the physical factors that shape real-world sounds. We present Physics-Aware Video-to-Audio Synthesis (PAVAS), a method that incorporates physical reasoning into a latent diffusion-based V2A generation through the Physics-Driven Audio Adapter (Phy-Adapter). The adapter receives object-level physical parameters estimated by the Physical Parameter Estimator (PPE), which uses a Vision-Language Model (VLM) to infer the moving-object mass and a segmentation-based dynamic 3D reconstruction module to recover its motion trajectory for velocity computation. These physical cues enable the model to synthesize sounds that reflect underlying physical factors. To assess physical realism, we curate VGG-Impact, a benchmark focusing on object-object interactions, and introduce Audio-Physics Correlation Coefficient (APCC), an evaluation metric that measures consistency between physical and auditory attributes. Comprehensive experiments show that PAVAS produces physically plausible and perceptually coherent audio, outperforming existing V2A models in both quantitative and qualitative evaluations. Visit https://physics-aware-video-to-audio-synthesis.github.io for demo videos.
title PAVAS: Physics-Aware Video-to-Audio Synthesis
topic Computer Vision and Pattern Recognition
Multimedia
Sound
url https://arxiv.org/abs/2512.08282