Unraveling the causes of the Seoul Halloween crowd-crush disaster.

Unraveling the causes of the Seoul Halloween crowd-crush disaster.

Publication date: Jul 12, 2024

As the world steadily recovers from the COVID-19 pandemic, managing large gatherings becomes a critical concern for ensuring crowd safety. The crowd-crush disaster in Seoul in 2022 highlights the need for effective predictive crowd management techniques. In this study, an empirical analysis of this incident is conducted using data from various sources, and model-based simulations are created to replicate hazardous crowd conditions in high-risk areas. In the empirical analysis, mobile device data indicates a significant increase in population above normal levels in the disaster area just hours before the incident occurred. In the simulations, a hydrodynamic model is employed to simulate a bidirectional collision, which quantitatively demonstrates that the average density during the crush reached 7. 57 ped/m2 (with a maximum of (9. 95)ped/m2). Additionally, the average crowd pressure peaked at 1,063 N/m (with a maximum of 1,961 N/m), and the maximum velocity entropy was 10. 99. Based on these findings, it can be concluded that the primary causes of the disaster were the substantial population, bidirectional collision, and escalating panic. The results of controlled simulations under various management strategies are then presented. By implementing effective crowd management techniques, crowd safety can be enhanced through quantitative comparisons of these key indicators.

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Concepts Keywords
Halloween Computer Simulation
Hydrodynamic COVID-19
Pandemic Crowding
Seoul Disasters
Humans
Mass Gatherings
Models, Theoretical
Pandemics
SARS-CoV-2
Seoul

Semantics

Type Source Name
disease MESH causes
disease MESH COVID-19 pandemic
disease VO effective
disease VO device
disease VO population
disease MESH panic
disease IDO history
drug DRUGBANK Trestolone
disease VO frequency
disease VO time
disease MESH Shock
disease VO effectiveness
disease IDO process
drug DRUGBANK Methionine
drug DRUGBANK Aminosalicylic Acid
disease MESH emergency
disease VO report
drug DRUGBANK Flunarizine
disease VO efficient
drug DRUGBANK Proline
disease MESH suffocation
disease MESH involuntary movement
disease IDO replication
drug DRUGBANK Coenzyme M
drug DRUGBANK L-Phenylalanine
drug DRUGBANK Aspartame
disease IDO algorithm
disease MESH lifestyle
disease MESH Crush syndrome
drug DRUGBANK (S)-Des-Me-Ampa

Original Article

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