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Main Authors: Zhou, Qiang, Zhang, Shaofeng, Yang, Nianzu, Qian, Ye, Li, Hao
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.08328
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author Zhou, Qiang
Zhang, Shaofeng
Yang, Nianzu
Qian, Ye
Li, Hao
author_facet Zhou, Qiang
Zhang, Shaofeng
Yang, Nianzu
Qian, Ye
Li, Hao
contents Existing text-to-video (T2V) models often struggle with generating videos with sufficiently pronounced or complex actions. A key limitation lies in the text prompt's inability to precisely convey intricate motion details. To address this, we propose a novel framework, MVideo, designed to produce long-duration videos with precise, fluid actions. MVideo overcomes the limitations of text prompts by incorporating mask sequences as an additional motion condition input, providing a clearer, more accurate representation of intended actions. Leveraging foundational vision models such as GroundingDINO and SAM2, MVideo automatically generates mask sequences, enhancing both efficiency and robustness. Our results demonstrate that, after training, MVideo effectively aligns text prompts with motion conditions to produce videos that simultaneously meet both criteria. This dual control mechanism allows for more dynamic video generation by enabling alterations to either the text prompt or motion condition independently, or both in tandem. Furthermore, MVideo supports motion condition editing and composition, facilitating the generation of videos with more complex actions. MVideo thus advances T2V motion generation, setting a strong benchmark for improved action depiction in current video diffusion models. Our project page is available at https://mvideo-v1.github.io/.
format Preprint
id arxiv_https___arxiv_org_abs_2411_08328
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Motion Control for Enhanced Complex Action Video Generation
Zhou, Qiang
Zhang, Shaofeng
Yang, Nianzu
Qian, Ye
Li, Hao
Computer Vision and Pattern Recognition
Existing text-to-video (T2V) models often struggle with generating videos with sufficiently pronounced or complex actions. A key limitation lies in the text prompt's inability to precisely convey intricate motion details. To address this, we propose a novel framework, MVideo, designed to produce long-duration videos with precise, fluid actions. MVideo overcomes the limitations of text prompts by incorporating mask sequences as an additional motion condition input, providing a clearer, more accurate representation of intended actions. Leveraging foundational vision models such as GroundingDINO and SAM2, MVideo automatically generates mask sequences, enhancing both efficiency and robustness. Our results demonstrate that, after training, MVideo effectively aligns text prompts with motion conditions to produce videos that simultaneously meet both criteria. This dual control mechanism allows for more dynamic video generation by enabling alterations to either the text prompt or motion condition independently, or both in tandem. Furthermore, MVideo supports motion condition editing and composition, facilitating the generation of videos with more complex actions. MVideo thus advances T2V motion generation, setting a strong benchmark for improved action depiction in current video diffusion models. Our project page is available at https://mvideo-v1.github.io/.
title Motion Control for Enhanced Complex Action Video Generation
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2411.08328