English

Image-to-Video Diffusion: From Foundations to Open Frontiers

Computer Vision and Pattern Recognition 2026-05-19 v1

Abstract

Diffusion-based \textit{image-to-video} (I2V) generation has become a central direction in generative models by turning a reference image, with optional conditions, into a temporally coherent video. Compared with broader video generation settings, this task places stricter demands on content consistency, identity preservation, and motion coherence. Although the literature grows rapidly, existing works mostly discuss I2V generation within broader topics and still lack a dedicated taxonomy together with a systematic analysis centered on this field. This work addresses that gap by treating diffusion I2V generation as a standalone subject. It first reviews the task formulation, model architectures, datasets, and evaluation metrics, and then organizes existing methods through a taxonomy based on architecture and training paradigm. It further distills four core designs, namely condition encoding, temporal modeling, noise prior design, and spatial-temporal upsampling, and discusses representative application scenarios together with major open challenges.

Keywords

Cite

@article{arxiv.2605.17248,
  title  = {Image-to-Video Diffusion: From Foundations to Open Frontiers},
  author = {Xianlong Wang and Wenbo Pan and Shijia Zhou and Ke Li and Yuqi Wang and Zeyu Ye and Hangtao Zhang and Leo Yu Zhang and Xiaohua Jia},
  journal= {arXiv preprint arXiv:2605.17248},
  year   = {2026}
}