Short-term Multiagent Simulation-based Prediction in Mass Gatherings Decision Support

Mass gatherings emerging both for specific occasions and spontaneously, are naturally associated with the risk of stampedes and crowd clashes that may trigger dramatic consequences in shorter or longer term perspectives. In order to address such issues the present paper suggests the application of the agent- based modeling approach to short-term predictions of future states of large congregates of people. The latter is of prime value for practitioners who seek to identify the potentially dangerous areas where the risk of stampede-induced injuries is assumed the highest based on the estimations of the crowd pressure at a given spot. In this paper, we outline the algorithm for generating forecasts and on its basis, propose a system of decision support. The test of system applicability has been performed based on the 2018 World Football Championship stadium use case. The object under investigation is expected to be put into operation in 2018.

[1]  M. A. Haleem,et al.  Pilgrims Tracking Using Wireless Sensor Network , 2011, 2011 IEEE Workshops of International Conference on Advanced Information Networking and Applications.

[2]  Christine N. Buzinde,et al.  Emic understandings of Kumbh Mela pilgrimage experiences , 2014 .

[3]  Paul Arbon,et al.  Mass-Gathering Medicine: A Review of the Evidence and Future Directions for Research , 2007, Prehospital and Disaster Medicine.

[4]  Michael S. Molloy,et al.  Koenig and Schultz's Disaster Medicine: Comprehensive Principles and Practices: Management of Mass Gatherings , 2009 .

[5]  Z. Memish,et al.  Emergence of medicine for mass gatherings: lessons from the Hajj , 2011, The Lancet Infectious Diseases.

[6]  Adam Lund,et al.  Mass-gathering Health Research Foundational Theory: Part 2 - Event Modeling for Mass Gatherings , 2014, Prehospital and Disaster Medicine.

[7]  Dirk Helbing,et al.  Pedestrian flow optimization with a genetic algorithm based on Boolean grids , 2007 .

[8]  Nobhojit Roy,et al.  Comparing Two Epidemiologic Surveillance Methods to Assess Underestimation of Human Stampedes in India , 2013, PLoS currents.

[9]  Faisel T. Illiyas,et al.  Human stampedes during religious festivals: A comparative review of mass gathering emergencies in India , 2013 .

[10]  Adam Lund,et al.  An Analysis of Mass Casualty Incidents in the Setting of Mass Gatherings and Special Events , 2014, Disaster Medicine and Public Health Preparedness.

[11]  Anders Johansson,et al.  Non-communicable health risks during mass gatherings. , 2012, The Lancet. Infectious diseases.

[12]  Ziad A Memish,et al.  Health risks at the Hajj , 2006, The Lancet.

[13]  B. Venkata Ramana,et al.  Pilgrims Tracking and Identification Using RFID Technology , 2012 .

[14]  N. Geroliminis,et al.  Existence of urban-scale macroscopic fundamental diagrams: Some experimental findings - eScholarship , 2007 .

[15]  Andrey Karsakov,et al.  Multiscale Agent-based Simulation in Large City Areas: Emergency Evacuation use Case , 2015, ICCS.

[16]  Helbing,et al.  Social force model for pedestrian dynamics. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.