MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER

Data released by the World Health Organization in 2015 declared that nearly half of the world's population is at risk of dengue hemorrhagic fever (DHF). Factors that affect the complexity of dengue include uncertainty of climate change, spatial heterogeneity factor and mobility of human, lifecy...

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Main Author: Zevika, Mona
Format: Theses
Language:Indonesia
Subjects:
Online Access:https://digilib.itb.ac.id/gdl/view/33589
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:33589
spelling id-itb.:335892019-01-25T13:41:58ZMOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER Zevika, Mona Matematika Indonesia Theses Dengue hemorrhagic fever (DHF), molecular model, particles, particle systems. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/33589 Data released by the World Health Organization in 2015 declared that nearly half of the world's population is at risk of dengue hemorrhagic fever (DHF). Factors that affect the complexity of dengue include uncertainty of climate change, spatial heterogeneity factor and mobility of human, lifecycle of mosquito, the limitations government budget, and there are no medicine and vaccine that ready yet to cure or give human an immunity to dengue. A molecular model of the spread of dengue fever that concern with the spatial heterogeneity is being discussed in this thesis. In this molecular model, every human and female Aedes aegypti mosquito are seen as particles, while the human and mosquito populations are seen as particle systems. Three important processes are considered in this molecular model, they are changes of population size process, changes in position of particles process, and changes of particles infection status process. The effects of the interaction that occur in each individual are modeled more closely to the facts through these three processes. The simulation results show that the speed of the spread of dengue fever increases with the value of interaction range. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Matematika
spellingShingle Matematika
Zevika, Mona
MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
description Data released by the World Health Organization in 2015 declared that nearly half of the world's population is at risk of dengue hemorrhagic fever (DHF). Factors that affect the complexity of dengue include uncertainty of climate change, spatial heterogeneity factor and mobility of human, lifecycle of mosquito, the limitations government budget, and there are no medicine and vaccine that ready yet to cure or give human an immunity to dengue. A molecular model of the spread of dengue fever that concern with the spatial heterogeneity is being discussed in this thesis. In this molecular model, every human and female Aedes aegypti mosquito are seen as particles, while the human and mosquito populations are seen as particle systems. Three important processes are considered in this molecular model, they are changes of population size process, changes in position of particles process, and changes of particles infection status process. The effects of the interaction that occur in each individual are modeled more closely to the facts through these three processes. The simulation results show that the speed of the spread of dengue fever increases with the value of interaction range.
format Theses
author Zevika, Mona
author_facet Zevika, Mona
author_sort Zevika, Mona
title MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
title_short MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
title_full MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
title_fullStr MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
title_full_unstemmed MOLECULAR MODEL OF SPREADING DENGUE HEMORRHAGIC FEVER
title_sort molecular model of spreading dengue hemorrhagic fever
url https://digilib.itb.ac.id/gdl/view/33589
_version_ 1821996542214537216