AbstractWhen designing an optimization model for use in mass casualty incident (MCI) response, the dynamic and uncertain nature of the problem environment poses a significant challenge. Many key problem parameters, such as the number of casualties to be processed, will typically change as the response operation progresses. Other parameters, such as the time required to complete key response tasks, must be estimated and are therefore prone to errors. In this work we extend a multi-objective combinatorial optimization model for MCI response to improve performance in dynamic and uncertain environments. The model is developed to allow for use in real time, with continuous communication between the optimization model and problem environment. A s...
This paper presents a solution for a real-world roadside assistance problem. Roadside incidents can ...
Most existing work on evolutionary optimization assumes that there are analytic functions for evalua...
Time-sensitive medical emergencies are responsible for one-third of all deaths worldwide and similar...
When designing an optimization model for use in mass casualty incident (MCI) response, the dynamic a...
When designing an optimization model for use in mass casualty incident (MCI) response, the dynamic a...
AbstractWhen designing an optimization model for use in mass casualty incident (MCI) response, the d...
Recent emergency response operations to Mass Casualty Incidents (MCIs) have been criticised for a la...
During the emergency response to mass casualty incidents decisions relating to the extrication, trea...
AbstractDuring the emergency response to mass casualty incidents decisions relating to the extricati...
In response to mass casualty incidents, medical aid must be provided to numerous victims synchronous...
This paper presents a response model for the aftermath of a Mass-Casualty Incident (MCI) that can be...
Thesis: Ph. D., Massachusetts Institute of Technology, Sloan School of Management, Operations Resear...
Part 10: Performance and OptimizationInternational audienceEach Emergency Medical Assistance Centre ...
Decision support systems play an increasingly important role in disaster management research. Coordi...
<div><p>The demand for medical treatment of casualties in mass casualty events (MCEs) exceeds resour...
This paper presents a solution for a real-world roadside assistance problem. Roadside incidents can ...
Most existing work on evolutionary optimization assumes that there are analytic functions for evalua...
Time-sensitive medical emergencies are responsible for one-third of all deaths worldwide and similar...
When designing an optimization model for use in mass casualty incident (MCI) response, the dynamic a...
When designing an optimization model for use in mass casualty incident (MCI) response, the dynamic a...
AbstractWhen designing an optimization model for use in mass casualty incident (MCI) response, the d...
Recent emergency response operations to Mass Casualty Incidents (MCIs) have been criticised for a la...
During the emergency response to mass casualty incidents decisions relating to the extrication, trea...
AbstractDuring the emergency response to mass casualty incidents decisions relating to the extricati...
In response to mass casualty incidents, medical aid must be provided to numerous victims synchronous...
This paper presents a response model for the aftermath of a Mass-Casualty Incident (MCI) that can be...
Thesis: Ph. D., Massachusetts Institute of Technology, Sloan School of Management, Operations Resear...
Part 10: Performance and OptimizationInternational audienceEach Emergency Medical Assistance Centre ...
Decision support systems play an increasingly important role in disaster management research. Coordi...
<div><p>The demand for medical treatment of casualties in mass casualty events (MCEs) exceeds resour...
This paper presents a solution for a real-world roadside assistance problem. Roadside incidents can ...
Most existing work on evolutionary optimization assumes that there are analytic functions for evalua...
Time-sensitive medical emergencies are responsible for one-third of all deaths worldwide and similar...