Experimental evidence of the " Faster is Slower" effect in the evacuation of ants

The faster is slower effect is a self-organized phenomena first described for pedestrian dynamics. Although it has been obtained in computer simulations, it has not been observed in real systems yet. To achieve this goal, we carried out experiments with ants, which are self-propelled biological agen...

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Detalles Bibliográficos
Autores principales: Soria, S.A., Josens, R., Parisi, D.R.
Formato: JOUR
Materias:
Biological agents
Competitive evacuation dynamics
Emergency egress
Pedestrian dynamics
Evacuation dynamics
Evacuation time
Experimental evidence
Real systems
Computer simulation
Dynamics
citronellal
animal behavior
animal experiment
ant
article
cluster analysis
competition
concentration response
controlled study
correlational study
evacuation time
nonhuman
observational study
population dynamics
priority journal
response time
social behavior
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_09257535_v50_n7_p1584_Soria
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_09257535_v50_n7_p1584_Soria
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spelling todo:paper_09257535_v50_n7_p1584_Soria2023-10-03T15:46:20Z Experimental evidence of the " Faster is Slower" effect in the evacuation of ants Soria, S.A. Josens, R. Parisi, D.R. Biological agents Competitive evacuation dynamics Emergency egress Pedestrian dynamics Biological agents Emergency egress Evacuation dynamics Evacuation time Experimental evidence Pedestrian dynamics Real systems Computer simulation Dynamics citronellal animal behavior animal experiment ant article cluster analysis competition concentration response controlled study correlational study evacuation time nonhuman observational study population dynamics priority journal response time social behavior The faster is slower effect is a self-organized phenomena first described for pedestrian dynamics. Although it has been obtained in computer simulations, it has not been observed in real systems yet. To achieve this goal, we carried out experiments with ants, which are self-propelled biological agents. The ants were placed inside a bidimensional chamber with a narrow exit, and a paper imbibed with repellent was placed in the opposite wall of the chamber. Using different concentrations of citronella, which produced different degrees of repellency, the ants were forced to egress from the chamber and the evacuation time was measured. A minimum evacuation time is observed for intermediate concentrations of citronella, compatible with the . faster is slower effect. However, this effect was not generated by the occurrence of blocking clusters right before the exit as the ants did not display a selfish evacuation behavior. © 2012 Elsevier Ltd. Fil:Josens, R. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Parisi, D.R. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09257535_v50_n7_p1584_Soria
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Biological agents
Competitive evacuation dynamics
Emergency egress
Pedestrian dynamics
Biological agents
Emergency egress
Evacuation dynamics
Evacuation time
Experimental evidence
Pedestrian dynamics
Real systems
Computer simulation
Dynamics
citronellal
animal behavior
animal experiment
ant
article
cluster analysis
competition
concentration response
controlled study
correlational study
evacuation time
nonhuman
observational study
population dynamics
priority journal
response time
social behavior
spellingShingle Biological agents
Competitive evacuation dynamics
Emergency egress
Pedestrian dynamics
Biological agents
Emergency egress
Evacuation dynamics
Evacuation time
Experimental evidence
Pedestrian dynamics
Real systems
Computer simulation
Dynamics
citronellal
animal behavior
animal experiment
ant
article
cluster analysis
competition
concentration response
controlled study
correlational study
evacuation time
nonhuman
observational study
population dynamics
priority journal
response time
social behavior
Soria, S.A.
Josens, R.
Parisi, D.R.
Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
topic_facet Biological agents
Competitive evacuation dynamics
Emergency egress
Pedestrian dynamics
Biological agents
Emergency egress
Evacuation dynamics
Evacuation time
Experimental evidence
Pedestrian dynamics
Real systems
Computer simulation
Dynamics
citronellal
animal behavior
animal experiment
ant
article
cluster analysis
competition
concentration response
controlled study
correlational study
evacuation time
nonhuman
observational study
population dynamics
priority journal
response time
social behavior
description The faster is slower effect is a self-organized phenomena first described for pedestrian dynamics. Although it has been obtained in computer simulations, it has not been observed in real systems yet. To achieve this goal, we carried out experiments with ants, which are self-propelled biological agents. The ants were placed inside a bidimensional chamber with a narrow exit, and a paper imbibed with repellent was placed in the opposite wall of the chamber. Using different concentrations of citronella, which produced different degrees of repellency, the ants were forced to egress from the chamber and the evacuation time was measured. A minimum evacuation time is observed for intermediate concentrations of citronella, compatible with the . faster is slower effect. However, this effect was not generated by the occurrence of blocking clusters right before the exit as the ants did not display a selfish evacuation behavior. © 2012 Elsevier Ltd.
format JOUR
author Soria, S.A.
Josens, R.
Parisi, D.R.
author_facet Soria, S.A.
Josens, R.
Parisi, D.R.
author_sort Soria, S.A.
title Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
title_short Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
title_full Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
title_fullStr Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
title_full_unstemmed Experimental evidence of the " Faster is Slower" effect in the evacuation of ants
title_sort experimental evidence of the " faster is slower" effect in the evacuation of ants
url http://hdl.handle.net/20.500.12110/paper_09257535_v50_n7_p1584_Soria
work_keys_str_mv AT soriasa experimentalevidenceofthefasterisslowereffectintheevacuationofants
AT josensr experimentalevidenceofthefasterisslowereffectintheevacuationofants
AT parisidr experimentalevidenceofthefasterisslowereffectintheevacuationofants
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