Using agent-based modelling to understand advantageous behaviours against COVID-19 transmission in the built environment

2022

Colloque

Grignard A., Nguyen-Huu Tri, Taillandier P., Alonso L., Ayoub N., Elkatsha M., Palomo G., Gomez M., Siller M., Gamboa M., Moreno C.I., Larson K.

Van Dam K.H. (ed.), Verstaevel N. (ed.), Multi-agent-based simulation XXII

2022, 86-98 (Lecture Notes in Computer Science ; 13128).

International Workshop, MABS, 22., [En ligne], 2021/05/03-2021/05/07

The global Covid-19 pandemic has raised many questions about how we occupy and move in the built environment. Interior environments have been increasingly discussed in numerous studies highlighting how interior spaces play a key role in the spread of pandemics. One societal challenge is to find short-term strategies to reopen indoor venues. Most current approaches focus on an individual's behavior (maintaining social distance, wearing face masks, and washing their hands) and government policies (confinement, curfew, quarantine, etc.). However, few studies have been conducted to understand a building's interior where most transmission takes place. How will the utilization of existing interior spaces be improved above and beyond universally applied criteria, while minimizing the risk of disease transmission ? This article presents an agent-based model that examines disease transmission risks in various 'interior types' in combination with user behaviors and their mobility, as well as three types of transmission vectors (direct, airborne and via surfaces). The model also integrates numerous policy interventions, including wearing masks, hand washing, and the possibility of easily modifying the organization of spaces. Different studies at various scales were conducted both on the University of Guadalajara (UdeG) campus as well as at the MIT Media Lab to illustrate the application of this model.

Informatique [122]

Fonds IRD [F B010091526]

fdi:010091526