Saved in:
Bibliographic Details
Main Authors: Hong, Fa-Ting, Xu, Zhan, Liu, Haiyang, Lin, Qinjie, Song, Luchuan, Shu, Zhixin, Zhou, Yang, Ceylan, Duygu, Xu, Dan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.17290
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866912169869705216
author Hong, Fa-Ting
Xu, Zhan
Liu, Haiyang
Lin, Qinjie
Song, Luchuan
Shu, Zhixin
Zhou, Yang
Ceylan, Duygu
Xu, Dan
author_facet Hong, Fa-Ting
Xu, Zhan
Liu, Haiyang
Lin, Qinjie
Song, Luchuan
Shu, Zhixin
Zhou, Yang
Ceylan, Duygu
Xu, Dan
contents Diffusion-based human animation aims to animate a human character based on a source human image as well as driving signals such as a sequence of poses. Leveraging the generative capacity of diffusion model, existing approaches are able to generate high-fidelity poses, but struggle with significant viewpoint changes, especially in zoom-in/zoom-out scenarios where camera-character distance varies. This limits the applications such as cinematic shot type plan or camera control. We propose a pose-correlated reference selection diffusion network, supporting substantial viewpoint variations in human animation. Our key idea is to enable the network to utilize multiple reference images as input, since significant viewpoint changes often lead to missing appearance details on the human body. To eliminate the computational cost, we first introduce a novel pose correlation module to compute similarities between non-aligned target and source poses, and then propose an adaptive reference selection strategy, utilizing the attention map to identify key regions for animation generation. To train our model, we curated a large dataset from public TED talks featuring varied shots of the same character, helping the model learn synthesis for different perspectives. Our experimental results show that with the same number of reference images, our model performs favorably compared to the current SOTA methods under large viewpoint change. We further show that the adaptive reference selection is able to choose the most relevant reference regions to generate humans under free viewpoints.
format Preprint
id arxiv_https___arxiv_org_abs_2412_17290
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Free-viewpoint Human Animation with Pose-correlated Reference Selection
Hong, Fa-Ting
Xu, Zhan
Liu, Haiyang
Lin, Qinjie
Song, Luchuan
Shu, Zhixin
Zhou, Yang
Ceylan, Duygu
Xu, Dan
Computer Vision and Pattern Recognition
Diffusion-based human animation aims to animate a human character based on a source human image as well as driving signals such as a sequence of poses. Leveraging the generative capacity of diffusion model, existing approaches are able to generate high-fidelity poses, but struggle with significant viewpoint changes, especially in zoom-in/zoom-out scenarios where camera-character distance varies. This limits the applications such as cinematic shot type plan or camera control. We propose a pose-correlated reference selection diffusion network, supporting substantial viewpoint variations in human animation. Our key idea is to enable the network to utilize multiple reference images as input, since significant viewpoint changes often lead to missing appearance details on the human body. To eliminate the computational cost, we first introduce a novel pose correlation module to compute similarities between non-aligned target and source poses, and then propose an adaptive reference selection strategy, utilizing the attention map to identify key regions for animation generation. To train our model, we curated a large dataset from public TED talks featuring varied shots of the same character, helping the model learn synthesis for different perspectives. Our experimental results show that with the same number of reference images, our model performs favorably compared to the current SOTA methods under large viewpoint change. We further show that the adaptive reference selection is able to choose the most relevant reference regions to generate humans under free viewpoints.
title Free-viewpoint Human Animation with Pose-correlated Reference Selection
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2412.17290