Synchronization of movement for a large-scale crowd

B. Goldengorin; D. Krushynskyi; A. Makarenko

doi:10.1007/978-3-642-04227-0_9

Synchronization of movement for a large-scale crowd

B. Goldengorin, D. Krushynskyi, A. Makarenko

Operations, Planning, Accounting & Control

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Hoofdstuk › Academic › peer review

3 Citaten (Scopus)

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Real world models of large-scale crowd movement lead to computationally intractable problems implied by various classes of non-linear stochastic differential equations. Recently, cellular automata (CA) have been successfully applied to model the dynamics of vehicular traffic, ants and pedestrians’ crowd movement and evacuation without taking into account mental properties. In this paper we study a large-scale crowd movement based on a CA approach and evaluated by the following three criteria: the minimization of evacuation time, maximization of instantaneous flow of pedestrians, and maximization of mentality-based synchronization of a crowd. Our computational experiments show that there exist interdependencies between the three criteria.

Originele taal-2	Engels
Titel	Recent advances in nonlinear dynamics and synchronization : theory and applications
Redacteuren	K. Kyamakya, W.A. Halang, H. Unger, J.C. Chedjou, xx et al.
Plaats van productie	Berlin
Uitgeverij	Springer
ISBN van geprinte versie	978-3-642-04226-3
DOI's	https://doi.org/10.1007/978-3-642-04227-0_9
Status	Gepubliceerd - 2009

Publicatie series

Naam	Studies in computational intelligence
Volume	254
ISSN van geprinte versie	1860-949X

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10.1007/978-3-642-04227-0_9

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Goldengorin, B., Krushynskyi, D., & Makarenko, A. (2009). Synchronization of movement for a large-scale crowd. In K. Kyamakya, W. A. Halang, H. Unger, J. C. Chedjou, & X. et al. (editors), Recent advances in nonlinear dynamics and synchronization : theory and applications (Studies in computational intelligence; Vol. 254). Springer. https://doi.org/10.1007/978-3-642-04227-0_9

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abstract = "Real world models of large-scale crowd movement lead to computationally intractable problems implied by various classes of non-linear stochastic differential equations. Recently, cellular automata (CA) have been successfully applied to model the dynamics of vehicular traffic, ants and pedestrians{\textquoteright} crowd movement and evacuation without taking into account mental properties. In this paper we study a large-scale crowd movement based on a CA approach and evaluated by the following three criteria: the minimization of evacuation time, maximization of instantaneous flow of pedestrians, and maximization of mentality-based synchronization of a crowd. Our computational experiments show that there exist interdependencies between the three criteria.",

author = "B. Goldengorin and D. Krushynskyi and A. Makarenko",

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doi = "10.1007/978-3-642-04227-0_9",

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Synchronization of movement for a large-scale crowd. / Goldengorin, B.; Krushynskyi, D.; Makarenko, A.
Recent advances in nonlinear dynamics and synchronization : theory and applications. redactie / K. Kyamakya; W.A. Halang; H. Unger; J.C. Chedjou; xx et al. Berlin: Springer, 2009. (Studies in computational intelligence; Vol. 254).

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Hoofdstuk › Academic › peer review

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AU - Krushynskyi, D.

AU - Makarenko, A.

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AB - Real world models of large-scale crowd movement lead to computationally intractable problems implied by various classes of non-linear stochastic differential equations. Recently, cellular automata (CA) have been successfully applied to model the dynamics of vehicular traffic, ants and pedestrians’ crowd movement and evacuation without taking into account mental properties. In this paper we study a large-scale crowd movement based on a CA approach and evaluated by the following three criteria: the minimization of evacuation time, maximization of instantaneous flow of pedestrians, and maximization of mentality-based synchronization of a crowd. Our computational experiments show that there exist interdependencies between the three criteria.

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Synchronization of movement for a large-scale crowd

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