Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Developing a system simulation model for dispatching mass casualty incident
I have been working with Dr. Chuang’s research team that is a unique group applying resilience engineering (RE) for resilience studies in Taiwan since my first year in the Institute of Data Science. At the beginning, I was assigned to conduct literature review on the Formosa Fun Coast Dust Explosion (FFCDE) disaster and RE theory. Next, my research in RE had two phases, participating the FFCDE research team to understand how the local command post distributed the mass burn casualties in disaster scene, developing a system simulation model of distributing mass burn casualties caused by compound disasters scenario i.e. fires after earthquake.In the first-phase, we published a conference proceedings paper titled “Coping with communication challenges after the Formosa Fun Coast Dust Explosion”. My job was to collect data and understand how communication and coordination acted among actors to deal with relocating and distributing mass casualties (MC) in the disaster scene. I had learned the knowledge of communication challenges faced by the local common post and how they adapted to cope with the challenges, as well as the difficulties that the initial receiving hospitals faced in the secondary distribution of severe burn patients. These experiences build up the foundation of my study in the second phase.In the second phase, my master thesis research focuses on developing a system simulation model for efficient and effective distribution of MC to hospitals following disaster events. The simulation will allow for assessment of multiple scenarios that vary in terms of how disaster events create medical needs and those factors that are crucial in emergency medical response to manage potential overwhelming injuries in severity and number, and produce an overall picture of casualty distribution plan from the disaster scene to initially receiving hospitals and follow-up patients transfer between the hospitals overtime.My thesis research adopts machine learning and uses the real data for building a simulation model. Data ...
Developing a system simulation model for dispatching mass casualty incident
I have been working with Dr. Chuang’s research team that is a unique group applying resilience engineering (RE) for resilience studies in Taiwan since my first year in the Institute of Data Science. At the beginning, I was assigned to conduct literature review on the Formosa Fun Coast Dust Explosion (FFCDE) disaster and RE theory. Next, my research in RE had two phases, participating the FFCDE research team to understand how the local command post distributed the mass burn casualties in disaster scene, developing a system simulation model of distributing mass burn casualties caused by compound disasters scenario i.e. fires after earthquake.In the first-phase, we published a conference proceedings paper titled “Coping with communication challenges after the Formosa Fun Coast Dust Explosion”. My job was to collect data and understand how communication and coordination acted among actors to deal with relocating and distributing mass casualties (MC) in the disaster scene. I had learned the knowledge of communication challenges faced by the local common post and how they adapted to cope with the challenges, as well as the difficulties that the initial receiving hospitals faced in the secondary distribution of severe burn patients. These experiences build up the foundation of my study in the second phase.In the second phase, my master thesis research focuses on developing a system simulation model for efficient and effective distribution of MC to hospitals following disaster events. The simulation will allow for assessment of multiple scenarios that vary in terms of how disaster events create medical needs and those factors that are crucial in emergency medical response to manage potential overwhelming injuries in severity and number, and produce an overall picture of casualty distribution plan from the disaster scene to initially receiving hospitals and follow-up patients transfer between the hospitals overtime.My thesis research adopts machine learning and uses the real data for building a simulation model. Data ...
Developing a system simulation model for dispatching mass casualty incident
Cheng, Chia-Hsin (Autor:in)
17.06.2019
REA Symposium on Resilience Engineering Embracing Resilience; Book of abstract: 8th REA Symposium on Resilience Engineering: Scaling up and Speeding up ; 8th REA Symposium on Resilience Engineering Embracing Resilience: Scaling up and Speeding up; Book of abstract: 8th REA Symposium on Resilience Engineering: Scaling up and Speeding up
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
710
Incident dispatching, clearance and delay
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