Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach

Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach

Using a multi-agent simulation approach composing of evacuee, cell, and signal, this study aims to proactively curb the oversaturation spread in evacuation and improve the evacuation efficiency. The specific innovation lies in the en-route path choice model and oversaturation control model. A logit...

Full description

Bibliographic Details
Main Authors: Zhengfeng Huang, Pengjun Zheng, Yanqiang Ma*, Guiyan Jiang, Gang Ren
Format: Article
Language:English
Published: Atlantis Press 2016-12-01
Series:International Journal of Computational Intelligence Systems
Subjects:
Oversaturation Control
Evacuation Network
Multi-Agent Based Modeling
Throttling Strategy
Online Access:https://www.atlantis-press.com/article/25868749/view
id doaj-9e57d39ce35e4a299035a8cefadd8cef
record_format Article
spelling doaj-9e57d39ce35e4a299035a8cefadd8cef2020-11-24T21:46:50ZengAtlantis PressInternational Journal of Computational Intelligence Systems 1875-68832016-12-019610.1080/18756891.2016.1256571Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation ApproachZhengfeng HuangPengjun ZhengYanqiang Ma*Guiyan JiangGang RenUsing a multi-agent simulation approach composing of evacuee, cell, and signal, this study aims to proactively curb the oversaturation spread in evacuation and improve the evacuation efficiency. The specific innovation lies in the en-route path choice model and oversaturation control model. A logit model incorporating fuzzy multi-attribute utility is used to describe the path choice. A three-threshold throttling strategy is proposed to assign signal parameters for oversaturated intersections. A case study demonstrates that the multi-attribute utility performs effectively in the presentation of uncertain route-choice factors under evacuation background. The throttling strategy can decrease the total evacuation time by 7.6% in the supposed scenario.https://www.atlantis-press.com/article/25868749/viewOversaturation ControlEvacuation NetworkMulti-Agent Based ModelingThrottling Strategy
collection DOAJ
language English
format Article
sources DOAJ
author Zhengfeng Huang
Pengjun Zheng
Yanqiang Ma*
Guiyan Jiang
Gang Ren
spellingShingle Zhengfeng Huang
Pengjun Zheng
Yanqiang Ma*
Guiyan Jiang
Gang Ren
Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
International Journal of Computational Intelligence Systems
Oversaturation Control
Evacuation Network
Multi-Agent Based Modeling
Throttling Strategy
author_facet Zhengfeng Huang
Pengjun Zheng
Yanqiang Ma*
Guiyan Jiang
Gang Ren
author_sort Zhengfeng Huang
title Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
title_short Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
title_full Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
title_fullStr Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
title_full_unstemmed Proactive Control for Oversaturation Mitigation on Evacuation Network: a Multi-Agent Simulation Approach
title_sort proactive control for oversaturation mitigation on evacuation network: a multi-agent simulation approach
publisher Atlantis Press
series International Journal of Computational Intelligence Systems
issn 1875-6883
publishDate 2016-12-01
description Using a multi-agent simulation approach composing of evacuee, cell, and signal, this study aims to proactively curb the oversaturation spread in evacuation and improve the evacuation efficiency. The specific innovation lies in the en-route path choice model and oversaturation control model. A logit model incorporating fuzzy multi-attribute utility is used to describe the path choice. A three-threshold throttling strategy is proposed to assign signal parameters for oversaturated intersections. A case study demonstrates that the multi-attribute utility performs effectively in the presentation of uncertain route-choice factors under evacuation background. The throttling strategy can decrease the total evacuation time by 7.6% in the supposed scenario.
topic Oversaturation Control
Evacuation Network
Multi-Agent Based Modeling
Throttling Strategy
url https://www.atlantis-press.com/article/25868749/view
work_keys_str_mv AT zhengfenghuang proactivecontrolforoversaturationmitigationonevacuationnetworkamultiagentsimulationapproach
AT pengjunzheng proactivecontrolforoversaturationmitigationonevacuationnetworkamultiagentsimulationapproach
AT yanqiangma proactivecontrolforoversaturationmitigationonevacuationnetworkamultiagentsimulationapproach
AT guiyanjiang proactivecontrolforoversaturationmitigationonevacuationnetworkamultiagentsimulationapproach
AT gangren proactivecontrolforoversaturationmitigationonevacuationnetworkamultiagentsimulationapproach
_version_ 1725899631782526976

Similar Items