Modelling COVID-19 Hotspot Using Bipartite Network Approach
COVID-19 causes a jarring impact on the livelihoods of people in Malaysia and globally. To prevent an outbreak in the community, identifying the likely sources of infection (hotspots) of COVID-19 is important. The goal of this study is to formulate a bipartite network model of COVID-19 transmissio...
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Prague University of Economics and Business
2021
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| Online Access: | http://ir.unimas.my/id/eprint/36062/1/hotspot1.pdf http://ir.unimas.my/id/eprint/36062/ https://aip.vse.cz/getrevsrc.php?identification=public&mag=aip&raid=182&type=fin&ver=3 https://doi.org/10.18267/j.aip.151 |
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my.unimas.ir.360622022-04-19T03:19:09Z http://ir.unimas.my/id/eprint/36062/ Modelling COVID-19 Hotspot Using Bipartite Network Approach Hong, Boon Hao Labadin, Jane Tiong, Wei King Lim, Terrin Chung, Melvin Hsien Liang A General Works QA Mathematics RA Public aspects of medicine COVID-19 causes a jarring impact on the livelihoods of people in Malaysia and globally. To prevent an outbreak in the community, identifying the likely sources of infection (hotspots) of COVID-19 is important. The goal of this study is to formulate a bipartite network model of COVID-19 transmissions by incorporating patient mobility data to address the assumption on population homogeneity made in the conventional models and focus on indirect transmission. Two types of nodes – human and location – are the main concern in the research scenario. 21 location nodes and 31 human nodes are identified from a patient’s pre-processed mobility data. The parameters used in this study for location node and human node quantifications are the ventilation rate of a location and the environmental properties of the location that affect the stability of the virus such as temperature and relative humidity. The summation rule is applied to quantify all nodes in the network and the link weight between the human node and the location node. The ranking of location and human nodes in this network is computed using a web search algorithm. This model is considered verified as the error obtained from the comparison made between the benchmark model and the COVID-19 bipartite network model is small. As a result, the higher ranking of the location is denoted as a hotspot in this study, and for a human node attached to this node will be ranked higher in the human node ranking. Consequently, the hotspot has a higher risk of transmission compared to other locations. These findings are proposed to provide a framework for public health authorities to identify the sources of infection and high-risk groups of people in the COVID-19 cases to control the transmission at the initial stage. Prague University of Economics and Business 2021-07 Article PeerReviewed text en http://ir.unimas.my/id/eprint/36062/1/hotspot1.pdf Hong, Boon Hao and Labadin, Jane and Tiong, Wei King and Lim, Terrin and Chung, Melvin Hsien Liang (2021) Modelling COVID-19 Hotspot Using Bipartite Network Approach. Acta Informatica Pragensia, 10 (2). pp. 123-137. ISSN 1805-4951 https://aip.vse.cz/getrevsrc.php?identification=public&mag=aip&raid=182&type=fin&ver=3 https://doi.org/10.18267/j.aip.151 |
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A General Works QA Mathematics RA Public aspects of medicine Hong, Boon Hao Labadin, Jane Tiong, Wei King Lim, Terrin Chung, Melvin Hsien Liang Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| description |
COVID-19 causes a jarring impact on the livelihoods of people in Malaysia and globally. To prevent an
outbreak in the community, identifying the likely sources of infection (hotspots) of COVID-19 is
important. The goal of this study is to formulate a bipartite network model of COVID-19 transmissions
by incorporating patient mobility data to address the assumption on population homogeneity made in
the conventional models and focus on indirect transmission. Two types of nodes – human and location
– are the main concern in the research scenario. 21 location nodes and 31 human nodes are identified
from a patient’s pre-processed mobility data. The parameters used in this study for location node and
human node quantifications are the ventilation rate of a location and the environmental properties of
the location that affect the stability of the virus such as temperature and relative humidity. The
summation rule is applied to quantify all nodes in the network and the link weight between the human
node and the location node. The ranking of location and human nodes in this network is computed
using a web search algorithm. This model is considered verified as the error obtained from the
comparison made between the benchmark model and the COVID-19 bipartite network model is small.
As a result, the higher ranking of the location is denoted as a hotspot in this study, and for a human
node attached to this node will be ranked higher in the human node ranking. Consequently, the hotspot
has a higher risk of transmission compared to other locations. These findings are proposed to provide
a framework for public health authorities to identify the sources of infection and high-risk groups of
people in the COVID-19 cases to control the transmission at the initial stage. |
| format |
Article |
| author |
Hong, Boon Hao Labadin, Jane Tiong, Wei King Lim, Terrin Chung, Melvin Hsien Liang |
| author_facet |
Hong, Boon Hao Labadin, Jane Tiong, Wei King Lim, Terrin Chung, Melvin Hsien Liang |
| author_sort |
Hong, Boon Hao |
| title |
Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| title_short |
Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| title_full |
Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| title_fullStr |
Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| title_full_unstemmed |
Modelling COVID-19 Hotspot Using Bipartite Network Approach |
| title_sort |
modelling covid-19 hotspot using bipartite network approach |
| publisher |
Prague University of Economics and Business |
| publishDate |
2021 |
| url |
http://ir.unimas.my/id/eprint/36062/1/hotspot1.pdf http://ir.unimas.my/id/eprint/36062/ https://aip.vse.cz/getrevsrc.php?identification=public&mag=aip&raid=182&type=fin&ver=3 https://doi.org/10.18267/j.aip.151 |
| _version_ |
1731229838150205440 |
| score |
13.209306 |