Kangyeol Kim scite author profile

Kangyeol Kim

4Publications

24Citation Statements Received

55Citation Statements Given

How they've been cited

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Affiliations

Korea Advanced Institute of Science and Technology, Kootenay Association for Science & Technology

Publications

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Vid-ODE: Continuous-Time Video Generation with Neural Ordinary Differential Equation

Park

Kim

Lee

et al. 2021

AAAI

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Video generation models often operate under the assumption of fixed frame rates, which leads to suboptimal performance when it comes to handling flexible frame rates (e.g., increasing the frame rate of the more dynamic portion of the video as well as handling missing video frames). To resolve the restricted nature of existing video generation models' ability to handle arbitrary timesteps, we propose continuous-time video generation by combining neural ODE (Vid-ODE) with pixel-level video processing techniques. Using ODE-ConvGRU as an encoder, a convolutional version of the recently proposed neural ODE, which enables us to learn continuous-time dynamics, Vid-ODE can learn the spatio-temporal dynamics of input videos of flexible frame rates. The decoder integrates the learned dynamics function to synthesize video frames at any given timesteps, where the pixel-level composition technique is used to maintain the sharpness of individual frames. With extensive experiments on four real-world video datasets, we verify that the proposed Vid-ODE outperforms state-of-the-art approaches under various video generation settings, both within the trained time range (interpolation) and beyond the range (extrapolation). To the best of our knowledge, Vid-ODE is the first work successfully performing continuous-time video generation using real-world videos.

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Vid-ODE: Continuous-Time Video Generation with Neural Ordinary Differential Equation

Park¹,

Kim²,

Lee³

et al. 2020

Preprint

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Video generation models often operate under the assumption of fixed frame rates, which leads to suboptimal performance when it comes to handling flexible frame rates (e.g., increasing the frame rate of more dynamic portion of the video as well as handling missing video frames). To resolve the restricted nature of existing video generation models' ability to handle arbitrary timesteps, we propose continuous-time video generation by combining neural ODE (Vid-ODE) with pixellevel video processing techniques. Using ODE-ConvGRU as an encoder, a convolutional version of the recently proposed neural ODE, which enables us to learn continuous-time dynamics, Vid-ODE can learn the spatio-temporal dynamics of input videos of flexible frame rates. The decoder integrates the learned dynamics function to synthesize video frames at any given timesteps, where the pixel-level composition technique is used to maintain the sharpness of individual frames. With extensive experiments on four real-world video datasets, we verify that the proposed Vid-ODE outperforms state-ofthe-art approaches under various video generation settings, both within the trained time range (interpolation) and beyond the range (extrapolation). To the best of our knowledge, Vid-ODE is the first work successfully performing continuous-time video generation using real-world videos.

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AnimeCeleb: Large-Scale Animation CelebHeads Dataset for Head Reenactment

Kim

Park

Lee

et al. 2022

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Style Your Hair: Latent Optimization for Pose-Invariant Hairstyle Transfer via Local-Style-Aware Hair Alignment

Kim

Chaeyeon

Kim

et al. 2022

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Kangyeol Kim

Vid-ODE: Continuous-Time Video Generation with Neural Ordinary Differential Equation

Vid-ODE: Continuous-Time Video Generation with Neural Ordinary Differential Equation

AnimeCeleb: Large-Scale Animation CelebHeads Dataset for Head Reenactment

Style Your Hair: Latent Optimization for Pose-Invariant Hairstyle Transfer via Local-Style-Aware Hair Alignment

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