A lattice model for active-passive pedestrian dynamics: a quest for drafting effects
We study the pedestrian escape from an obscure room using a lattice gas model with two species of particles. One species, called passive, performs a symmetric random walk on the lattice, whereas the second species, called active, is subject to a drift guiding the particles towards the exit. The drif...
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| Published in | Mathematical biosciences and engineering : MBE Vol. 17; no. 1; pp. 460 - 477 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
AIMS Press
01.01.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1551-0018 1547-1063 1551-0018 |
| DOI | 10.3934/mbe.2020025 |
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| Abstract | We study the pedestrian escape from an obscure room using a lattice gas model with two species of particles. One species, called passive, performs a symmetric random walk on the lattice, whereas the second species, called active, is subject to a drift guiding the particles towards the exit. The drift mimics the awareness of some pedestrians of the geometry of the room and of the location of the exit. We provide numerical evidence that, in spite of the hard core interaction between particles-namely, there can be at most one particle of any species per site-adding a fraction of active particles in the system enhances the evacuation rate of all particles from the room. A similar effect is also observed when looking at the outgoing particle flux, when the system is in contact with an external particle reservoir that induces the onset of a steady state. We interpret this phenomenon as a discrete space counterpart of the drafting effect typically observed in a continuum set-up as the aerodynamic drag experienced by pelotons of competing cyclists. |
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| AbstractList | We study the pedestrian escape from an obscure room using a lattice gas model with two species of particles. One species, called passive, performs a symmetric random walk on the lattice, whereas the second species, called active, is subject to a drift guiding the particles towards the exit. The drift mimics the awareness of some pedestrians of the geometry of the room and of the location of the exit. We provide numerical evidence that, in spite of the hard core interaction between particles-namely, there can be at most one particle of any species per site-adding a fraction of active particles in the system enhances the evacuation rate of all particles from the room. A similar effect is also observed when looking at the outgoing particle flux, when the system is in contact with an external particle reservoir that induces the onset of a steady state. We interpret this phenomenon as a discrete space counterpart of the drafting effect typically observed in a continuum set-up as the aerodynamic drag experienced by pelotons of competing cyclists. We study the pedestrian escape from an obscure room using a lattice gas model with two species of particles. One species, called passive, performs a symmetric random walk on the lattice, whereas the second species, called active, is subject to a drift guiding the particles towards the exit. The drift mimics the awareness of some pedestrians of the geometry of the room and of the location of the exit. We provide numerical evidence that, in spite of the hard core interaction between particles-namely, there can be at most one particle of any species per site-adding a fraction of active particles in the system enhances the evacuation rate of all particles from the room. A similar effect is also observed when looking at the outgoing particle flux, when the system is in contact with an external particle reservoir that induces the onset of a steady state. We interpret this phenomenon as a discrete space counterpart of the drafting effect typically observed in a continuum set-up as the aerodynamic drag experienced by pelotons of competing cyclists.We study the pedestrian escape from an obscure room using a lattice gas model with two species of particles. One species, called passive, performs a symmetric random walk on the lattice, whereas the second species, called active, is subject to a drift guiding the particles towards the exit. The drift mimics the awareness of some pedestrians of the geometry of the room and of the location of the exit. We provide numerical evidence that, in spite of the hard core interaction between particles-namely, there can be at most one particle of any species per site-adding a fraction of active particles in the system enhances the evacuation rate of all particles from the room. A similar effect is also observed when looking at the outgoing particle flux, when the system is in contact with an external particle reservoir that induces the onset of a steady state. We interpret this phenomenon as a discrete space counterpart of the drafting effect typically observed in a continuum set-up as the aerodynamic drag experienced by pelotons of competing cyclists. We study the pedestrian escape from an obscure room using a lattice gas model with twospecies of particles. One species, called passive, performs a symmetric random walk on the lattice,whereas the second species, called active, is subject to a drift guiding the particles towards the exit.The drift mimics the awareness of some pedestrians of the geometry of the room and of the location ofthe exit. We provide numerical evidence that, in spite of the hard core interaction between particles –namely, there can be at most one particle of any species per site – adding a fraction of active particlesin the system enhances the evacuation rate of all particles from the room. A similar effect is alsoobserved when looking at the outgoing particle flux, when the system is in contact with an externalparticle reservoir that induces the onset of a steady state. We interpret this phenomenon as a discretespace counterpart of the drafting effect typically observed in a continuum set–up as the aerodynamicdrag experienced by pelotons of competing cyclists. |
| Author | Colangeli, Matteo Muntean, Adrian K. Thoa Thieu, T. N. M. Cirillo, Emilio |
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| Keywords | evacuation pedestrian dynamics simple exclusion dynamics drafting particle currents obscure room |
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| References_xml | – ident: 12 article-title: N. Bellomo, D. Clarke, L. Gibelli, et al., Human behaviours in evacuation crowd – ident: 14 article-title: A. Ciallella and E. N. M. Cirillo, Linear Boltzmann dynamics in a strip with large reflective – ident: 16 article-title: E. Cristiani and D. Peri. Handling obstacles in pedestrian – ident: 9 article-title: M. Colangeli, A. Muntean, O. Richardson, et al., Modelling interactions between active and passive agents moving through heterogeneous environments, in G. Libelli, N. Bellomo (Eds), Crowd Dynamics, vol. – ident: 21 article-title: B. Blocken, T. van Druenen, Y. Toparlar, et al., Aerodynamic drag in cycling – ident: 6 article-title: A. Ciallella, E. N. M. Cirillo, P. Curseu, et al., Free to move or trapped in your – ident: 8 article-title: H. Oh and J. Park, Main factor causing "faster-is-slower" phenomenon during – ident: 19 article-title: G. A. Pavliotis, Stochastic Processes and – ident: 5 article-title: S. Xue, B. Jia, R. Jiang, et al., Pedestrian evacuation in view and hearing limited – ident: 4 article-title: J.-H. Wang and J.-H. Sun. Principal aspects regarding to the emergency evacuation of large-scale |
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| SubjectTerms | drafting evacuation Matematik Mathematics obscure room particle currents Pedestrian dynamics simple exclusion dynamics |
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| Title | A lattice model for active-passive pedestrian dynamics: a quest for drafting effects |
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