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An Evacuation Route Model of Crowd Based on Emotion and Geodesic

Author

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  • Bangquan Liu
  • Zhen Liu
  • Dechao Sun
  • Chunyue Bi

Abstract

Making unconventional emergent plan for dense crowd is one of the critical issues of evacuation simulations. In order to make the behavior of crowd more believable, we present a real-time evacuation route approach based on emotion and geodesic under the influence of individual emotion and multi-hazard circumstances. The proposed emotion model can reflect the dynamic process of individual in group on three factors: individual emotion, perilous field, and crowd emotion. Specifically, we first convert the evacuation scene to Delaunay triangulation representations. Then, we use the optimization-driven geodesic approach to calculate the best evacuation path with user-specified geometric constraints, such as crowd density, obstacle information, and perilous field. Finally, the Smooth Particle Hydrodynamics method is used for local avoidance of collisions with nearby agents in real-time simulation. Extensive experimental results show that our algorithm is efficient and well suited for real-time simulations of crowd evacuation.

Suggested Citation

  • Bangquan Liu & Zhen Liu & Dechao Sun & Chunyue Bi, 2018. "An Evacuation Route Model of Crowd Based on Emotion and Geodesic," Mathematical Problems in Engineering, Hindawi, vol. 2018, pages 1-10, October.
    • Handle: RePEc:hin:jnlmpe:5397071
    DOI: 10.1155/2018/5397071
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