Agent-based evacuation modeling with multiple exits using NeuroEvolution of Augmenting Topologies

Evacuation modeling offers challenging research topics to solve problems related to the development of emergency planning strategies. In this paper, we built an agent-based evacuation simulation model to study the pedestrian dynamics and learning process by applying the NeuroEvolution of Augmenting...

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Vydané v:Advanced engineering informatics Ročník 35; s. 30 - 55
Hlavný autor: Yuksel, Mehmet Erkan
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 01.01.2018
Predmet:
Agent-based modeling and simulation
Emergency evacuation
Evacuation modeling
Evolutionary computation
Genetic algorithms
Neuroevolution
Emergency evacuation
Evacuation modeling
Neuroevolution
Agent-based modeling and simulation
Evolutionary computation
Genetic algorithms
ISSN:1474-0346
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Abstract Evacuation modeling offers challenging research topics to solve problems related to the development of emergency planning strategies. In this paper, we built an agent-based evacuation simulation model to study the pedestrian dynamics and learning process by applying the NeuroEvolution of Augmenting Topologies (NEAT) which is a powerful method to evolve artificial neural networks (ANNs) through genetic algorithms (GAs). The NEAT method strengthens the analogy between GAs and biological evolution by both optimizing and complexifying the solutions simultaneously. We set our main goal to develop a model by identifying the most appropriate fitness function for the agents that can learn how to change and improve their behaviors in a simulation environment such as moving towards the visible targets, producing efficient locomotion, communicating with each other, and avoiding obstacles while reaching targets. The fitness function we chose captured the learning process effectively and our NEAT-based implementation evolved suitable structures for the ANNs autonomously. According to our experiments and observations in the simulated environment, the agents accomplished their tasks successfully and found their ways to the exits.
AbstractList Evacuation modeling offers challenging research topics to solve problems related to the development of emergency planning strategies. In this paper, we built an agent-based evacuation simulation model to study the pedestrian dynamics and learning process by applying the NeuroEvolution of Augmenting Topologies (NEAT) which is a powerful method to evolve artificial neural networks (ANNs) through genetic algorithms (GAs). The NEAT method strengthens the analogy between GAs and biological evolution by both optimizing and complexifying the solutions simultaneously. We set our main goal to develop a model by identifying the most appropriate fitness function for the agents that can learn how to change and improve their behaviors in a simulation environment such as moving towards the visible targets, producing efficient locomotion, communicating with each other, and avoiding obstacles while reaching targets. The fitness function we chose captured the learning process effectively and our NEAT-based implementation evolved suitable structures for the ANNs autonomously. According to our experiments and observations in the simulated environment, the agents accomplished their tasks successfully and found their ways to the exits.
Author Yuksel, Mehmet Erkan
Author_xml – sequence: 1
  givenname: Mehmet Erkan
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  fullname: Yuksel, Mehmet Erkan
  email: erkanyuksel@mehmetakif.edu.tr
  organization: Department of Computer Engineering, Mehmet Akif Ersoy University, Burdur, Turkey
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Keywords Emergency evacuation
Evacuation modeling
Neuroevolution
Agent-based modeling and simulation
Evolutionary computation
Genetic algorithms
Language English
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Snippet Evacuation modeling offers challenging research topics to solve problems related to the development of emergency planning strategies. In this paper, we built...
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SubjectTerms Agent-based modeling and simulation
Emergency evacuation
Evacuation modeling
Evolutionary computation
Genetic algorithms
Neuroevolution
Title Agent-based evacuation modeling with multiple exits using NeuroEvolution of Augmenting Topologies
URI https://dx.doi.org/10.1016/j.aei.2017.11.003
Volume 35
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