Abstract
The modification of Cellular Automaton Floor Field based simulation of evacuation is presented. The typical approach, where the pedestrian occupies single cell, usually of size \(0.4 \times 0.4\,\mathrm{m}^2\). is modified by assumption that the single person can occupy 2 cells. The rules of motion are presented and the basic characteristics as well as comparison with the one-cell model are shown.
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Zheng, X., Zhong, T., Liu, M.: Modeling crowd evacuation of a building based on seven methodological approaches. Build. Environ. 44, 437–445 (2009)
Henein, C.M., White, T.: Microscopic information processing and communication in crowd dynamics. Phys. A Stat. Mech. Appl. 389, 4636–4653 (2010)
Burstedde, C., Klauck, K., Schadschneider, A., Zittartz, J.: Simulation of pedestrian dynamics using a two-dimensional cellular automaton. Phys. A Stat. Mech. Appl. 295, 507–525 (2001)
Perez, G.J., Tapang, G., Lim, M., Saloma, C.: Streaming, disruptive interference and power-law behavior in the exit dynamics of confined pedestrians. Physica A Stat. Mech. Appl. 312, 609–618 (2002)
Gudowski, B., Wąs, J.: Modeling of people flow in public transport vehicles. In: Wyrzykowski, R., Dongarra, J., Meyer, N., Waśniewski, J. (eds.) PPAM 2005. LNCS, vol. 3911, pp. 333–339. Springer, Heidelberg (2006)
Wąs, J.: Multi-agent frame of social distances model. In: Umeo, H., Morishita, S., Nishinari, K., Komatsuzaki, T., Bandini, S. (eds.) ACRI 2008. LNCS, vol. 5191, pp. 567–570. Springer, Heidelberg (2008)
Gérin-Lajoie, M., Richards, C.L., McFadyen, B.J.: The negotiation of stationary and moving obstructions during walking: anticipatory locomotor adaptations and preservation of personal space. Mot. Control 9, 242–269 (2005)
Chraibi, M., Seyfried, A., Schadschneider, A.: Generalized centrifugal-force model for pedestrian dynamics. Phys. Rev. E 82, 046111 (2010)
Darekar, A., Lamontagne, A., Fung, J.: Dynamic clearance measure to evaluate locomotor and perceptuo-motor strategies used for obstacle circumvention in a virtual environment. Hum. Mov. Sci. 40, 359–371 (2015)
Sarmady, S., Haron, F., Talib, A.: Simulating crowd movements using fine grid cellular automata. In: 2010 12th International Conference on Computer Modelling and Simulation (UKSim), pp. 428–433 (2010)
Varas, A., Cornejo, M.D., Mainemer, D., Toledo, B., Rogan, J., Munoz, V., Valdivia, J.A.: Cellular automaton model for evacuation process with obstacles. Phys. A Stat. Mech. Appl. 382, 631–642 (2007)
Gwizdałła, T.M.: Some properties of the floor field cellular automata evacuation model. Phys. A Stat. Mech. Appl. 419, 718–728 (2015)
El-Baz, F.: Million man march. http://www.bu.edu/remotesensing/research/completed/million-man-march/
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Gwizdałła, T.M. (2016). The Evacuation Process Study with the Cellular Automaton Floor Field on Fine Grid. In: El Yacoubi, S., Wąs, J., Bandini, S. (eds) Cellular Automata. ACRI 2016. Lecture Notes in Computer Science(), vol 9863. Springer, Cham. https://doi.org/10.1007/978-3-319-44365-2_25
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DOI: https://doi.org/10.1007/978-3-319-44365-2_25
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