现代电影技术Issue(9):28-35,8.DOI:10.3969/j.issn.1673-3215.2025.09.004
基于运动规律体系的AIGC技术在二维动画电影产业流程中的应用研究
The application of AIGC-based motion principles in the production workflow of 2D animation industry
摘要
Abstract
As China's domestic animation industry undergoes a profound transformation from traditional hand-drawn anima-tion to paperless production,the rapid development of digital technologies has significantly improved production efficiency while simultaneously raising concerns about the increasing formalization of motion principles.This study provides a com-prehensive analysis of the critical role that motion principle system plays throughout the entire production workflow of 2D animation industry,from both conceptual design and production to post-production compositing.It systematically illustrates the practical applications of motion principles and highlights their fundamental importance in sustaining the artistic expres-siveness of animation.The findings suggest that motion principles constitute an essential attribute of animation art,and that establishing a well-structured motion principle system is the key to advancing the high-quality development of China's 2D animation industry.In response to the challenges and opportunities presented by emerging technologies such as AI generated contents(AIGC),this paper further advocates for the deep integration of these technologies into animation pro-duction processes,emphasizing the necessity of human-machine collaboration and human-centered intelligent creation,not only to enhance production efficiency and strengthen the film industry,but also to preserve and amplify the unique artis-tic style of Chinese animated films,thereby reinforcing their expressive power and cultural influence.关键词
二维动画/运动规律/动作设计/动画制作流程/AIGC/角色表演Key words
2D Animation/Motion Principles/Action Design/Animation Production Workflow/AIGC/Character Performance分类
社会科学引用本文复制引用
刘琥,田古月..基于运动规律体系的AIGC技术在二维动画电影产业流程中的应用研究[J].现代电影技术,2025,(9):28-35,8.基金项目
2024年度国家社科基金艺术学西部项目"百年中国动画学术史(1923-2023)"(24EC229)阶段性研究成果. (1923-2023)
