Redirigiendo al acceso original de articulo en 18 segundos...
Inicio  /  Urban Science  /  Vol: 2 Par: 2 (2018)  /  Artículo
ARTÍCULO
TITULO

An Agent-Based Modeling Framework for Simulating Human Exposure to Environmental Stresses in Urban Areas

Liang Emlyn Yang    
Peter Hoffmann    
Jürgen Scheffran    
Sven Rühe    
Jana Fischereit and Ingenuin Gasser    

Resumen

Several approaches have been used to assess potential human exposure to environmental stresses and achieve optimal results under various conditions, such as for example, for different scales, groups of people, or points in time. A thorough literature review in this paper identifies the research gap regarding modeling approaches for assessing human exposure to environment stressors, and it indicates that microsimulation tools are becoming increasingly important in human exposure assessments of urban environments, in which each person is simulated individually and continuously. The paper further describes an agent-based model (ABM) framework that can dynamically simulate human exposure levels, along with their daily activities, in urban areas that are characterized by environmental stresses such as air pollution and heat stress. Within the framework, decision-making processes can be included for each individual based on rule-based behavior in order to achieve goals under changing environmental conditions. The ideas described in this paper are implemented in a free and open source NetLogo platform. A basic modeling scenario of the ABM framework in Hamburg, Germany, demonstrates its utility in various urban environments and individual activity patterns, as well as its portability to other models, programs, and frameworks. The prototype model can potentially be extended to support environmental incidence management through exploring the daily routines of different groups of citizens, and comparing the effectiveness of different strategies. Further research is needed to fully develop an operational version of the model.

 Artículos similares

       
 
Bernhard Jonathan Sattler, John Friesen, Andrea Tundis and Peter F. Pelz    
Current challenges, such as climate change or military conflicts, show the great importance of urban supply infrastructures. In this context, an open question is how different scenarios and crises can be studied in silico to assess the interaction betwee... ver más
Revista: Water

 
Hao Xu, Jun Zhang, Xizhen Xu, Zewei Zeng, Yuzhu Xu, Jiawei You and Jing Li    
Green residences have enormous potential for energy savings, emission reduction, and other comprehensive benefits, and their growth is crucial to achieving China?s carbon neutrality and carbon peaking targets. Nevertheless, at the moment, the national gr... ver más
Revista: Buildings

 
Mattia Pellegrino, Gianfranco Lombardo, Stefano Cagnoni and Agostino Poggi    
This paper presents an approach for the modeling and the simulation of the spreading of COVID-19 based on agent-based modeling and simulation (ABMS). Our goal is not only to support large-scale simulations but also to increase the simulation resolution. ... ver más
Revista: Future Internet

 
Navid Mahdizadeh Gharakhanlou and Liliana Perez    
Throughout history, pandemics have forced societies to think beyond typical management and control protocols. The main goals of this study were to simulate and understand the spatial dynamics of COVID-19 spread and assess the efficacy of two policy measu... ver más

 
Serio Agriesti, Claudio Roncoli and Bat-hen Nahmias-Biran    
Agent-based modeling has the potential to deal with the ever-growing complexity of transport systems, including future disrupting mobility technologies and services, such as automated driving, Mobility as a Service, and micromobility. Although different ... ver más