KlingAvatar 2.0 Technical Report
Abstract
Avatar video generation models have achieved remarkable progress in recent years. However, prior work exhibits limited efficiency in generating long-duration high-resolution videos, suffering from temporal drifting, quality degradation, and weak prompt following as video length increases. To address these challenges, we propose KlingAvatar 2.0, a spatio-temporal cascade framework that performs upscaling in both spatial resolution and temporal dimension. The framework first generates low-resolution blueprint video keyframes that capture global semantics and motion, and then refines them into high-resolution, temporally coherent sub-clips using a first-last frame strategy, while retaining smooth temporal transitions in long-form videos. To enhance cross-modal instruction fusion and alignment in extended videos, we introduce a Co-Reasoning Director composed of three modality-specific large language model (LLM) experts. These experts reason about modality priorities and infer underlying user intent, converting inputs into detailed storylines through multi-turn dialogue. A Negative Director further refines negative prompts to improve instruction alignment. Building on these components, we extend the framework to support ID-specific multi-character control. Extensive experiments demonstrate that our model effectively addresses the challenges of efficient, multimodally aligned long-form high-resolution video generation, delivering enhanced visual clarity, realistic lip-teeth rendering with accurate lip synchronization, strong identity preservation, and coherent multimodal instruction following.
Keywords
Cite
@article{arxiv.2512.13313,
title = {KlingAvatar 2.0 Technical Report},
author = {Kling Team and Jialu Chen and Yikang Ding and Zhixue Fang and Kun Gai and Yuan Gao and Kang He and Jingyun Hua and Boyuan Jiang and Mingming Lao and Xiaohan Li and Hui Liu and Jiwen Liu and Xiaoqiang Liu and Yuan Liu and Shun Lu and Yongsen Mao and Yingchao Shao and Huafeng Shi and Xiaoyu Shi and Peiqin Sun and Songlin Tang and Pengfei Wan and Chao Wang and Xuebo Wang and Haoxian Zhang and Yuanxing Zhang and Yan Zhou},
journal= {arXiv preprint arXiv:2512.13313},
year = {2025}
}
Comments
14 pages, 7 figures