This paper presents a hybrid approach based on the continuum model proposed by Treuille et al。[5]。 Compared to the original method, our solution is well suited for complex environment。 We first present an environment structure and a corresponding discretization scheme that help us to organize and simulate crowds in large-scale scenarios。 Second, additional discomforts around obstacles are autogenerated for keeping a certain distance between pedestrians and obstacles which is psychologically plausible, and it could obtain smoother trajectory when people move around many obstacles。 Thirdly, we propose a technique for density conversion; the density field is dynamically affected by each individual so that it could be adapted to different grid resolution。 The experiment results demonstrate that our hybrid solution can perform plausible crowds flow in complex dynamic environments。
Hao Jiang、Wenbin Xu、Tianlu Mao、ChunPeng Li、Shihong Xia、Zhaoqi Wang
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Institute of Computing Technology, Chinese Academy of Sciences, Beijing, China, 100190 Graduate School of the Chinese Academy of Sciences, Beijing, China, 100049
Institute of Computing Technology, Chinese Academy of Sciences, Beijing, China, 100190
Yellow Mountain City(CN)
2009 11th IEEE international conference on computer-aided design and computer graphics
NETL
