ANALYSIS OF INFECTIOUS DISEASE TRANSMISSION USING RANDOM WALK ON GRANULAR PARTICLE AS AN AGENT- BASED MODEL.
The outbreak of infectious disease is a big problem that haunts human civilization from time to time. In carrying out an outbreak, humans not only need effective treatment and vaccination. Even though an outbreak is relatively non-lethal, if it could spread in relatively rapid time, it could crea...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/47694 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The outbreak of infectious disease is a big problem that haunts human civilization
from time to time. In carrying out an outbreak, humans not only need effective
treatment and vaccination. Even though an outbreak is relatively non-lethal, if it could
spread in relatively rapid time, it could create a mass panic that results in disruption
of the social, political, and economic stability of an area. The health care system also
could be disrupted if large numbers of patients are coming in a short time. The growth
of outbreaks that are naturally exponential will be very effectively suppressed if any
pieces of information related to the outbreak are known as early as possible.
Therefore information with high resolution related to how an outbreak could spread
will be very helpful in preventing or mitigating the outbreak of a pathogen.
In this final project, an agent-based model simulation that generally has a higher
resolution than models with other frameworks will be used to describe how an
outbreak can spread. This model is built based on random walks of the granular
particle system. Random walk is a stochastic process that is commonly used in
describing the movements of an organism mathematically, including in modeling
human movements or mobility which greatly influences how an outbreak can spread. |
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