Figure 4 from Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
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Figure 4: (a) Profile of the crowd at a clogged exit door. (b) Density graph at the exit door shows that no agent was able to pass the exit during the clogging effect. - "Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics"
Francisco Enrique Vicente CASTRO, Research Scientist, PhD in Computer Science, New York University, NY, NYU
Mechanical response of dense pedestrian crowds to the crossing of intruders
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
Francisco Enrique Vicente CASTRO, Research Scientist, PhD in Computer Science, New York University, NY, NYU
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PDF] A Study on the Effect of Exit Widths and Crowd Sizes in the Formation of Arch in Clogged Crowds
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics – arXiv Vanity
FINAL ITRC Proceedings April 8, PDF, Public Transport
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
Figure 4 from Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
Jaderick P. Pabico's research works University of the Philippines Los Baños, Los Baños (UPLB) and other places
PDF) Understanding Crowd Behaviours, Volume 2: Supporting Theory and Evidence.
SPH crowds: Agent-based crowd simulation up to extreme densities using fluid dynamics - ScienceDirect
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