Self-Organized Pedestrian Crowd Dynamics: Experiments, Simulations, and Design Solutions
Transportation Science
Programming agents as a means of capturing self-strategy
Proceedings of the 7th international joint conference on Autonomous agents and multiagent systems - Volume 2
System Issues in Multi-agent Simulation of Large Crowds
Multi-Agent-Based Simulation VIII
Using Agent-Based Simulation of Human Behavior to Reduce Evacuation Time
PRIMA '08 Proceedings of the 11th Pacific Rim International Conference on Multi-Agents: Intelligent Agents and Multi-Agent Systems
Intelligent Decision Technologies
Modeling agents through bounded rationality theories
IJCAI'09 Proceedings of the 21st international jont conference on Artifical intelligence
Users matter: a multi-agent systems model of high performance computing cluster users
MABS'04 Proceedings of the 2004 international conference on Multi-Agent and Multi-Agent-Based Simulation
DrillSim: a simulation framework for emergency response drills
ISI'06 Proceedings of the 4th IEEE international conference on Intelligence and Security Informatics
Modeling agents based on aspiration adaptation theory
Autonomous Agents and Multi-Agent Systems
Agent community support for crisis-response organizations
OTM'06 Proceedings of the 2006 international conference on On the Move to Meaningful Internet Systems: AWeSOMe, CAMS, COMINF, IS, KSinBIT, MIOS-CIAO, MONET - Volume Part I
Agent-oriented modeling and development of a system for crisis management
Expert Systems with Applications: An International Journal
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Traditional crowd simulators are based on a simple numerical analysis of inputs such as the positions of people and structures; they do not consider leadership. Since leaders (in terms of evacuations) are present in many real-world situations, the validity of evacuation simulations can be increased through their introduction. We assess the results of a real-world evacuation experiment to develop more realistic scenarios for simulation. The simulations produced by the improved scenarios are found to closely mimic the experimental results. This work shows that scenario-based agent systems such as FlatWalk and FreeWalk offer excellent promise in simulating evacuations more realistically.