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"
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Calaméo - 201702 Singapore Conference Proceedings(nature Science)
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SPH crowds: Agent-based crowd simulation up to extreme densities using fluid dynamics - ScienceDirect
Sensors, Free Full-Text
Francisco Enrique Vicente CASTRO, Research Scientist, PhD in Computer Science, New York University, NY, NYU
Francisco Enrique Vicente CASTRO, Research Scientist, PhD in Computer Science, New York University, NY, NYU
sublime-history/Contents/MacOS/Packages/Language - English/en_GB.dic at master · aziz/sublime-history · GitHub
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
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PDF) Collective phenomena in crowds-Where pedestrian dynamics need social psychology
nlpdl/ex5/train.txt at master · ecly/nlpdl · GitHub
Microsimulations of Arching, Clogging, and Bursty Exit Phenomena in Crowd Dynamics
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