Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi
One of the most important things that is needed to be reviewed of biology phenomena such as regulation and disease transmission is uncertainty. These uncertainties usually appear because noise in observation data or limitations of observed components. The limitations of observed data will lead to...
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id-itb.:321432018-12-03T12:32:09ZAnalisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi Andriani Br Sebayang, Afrina Probabilitas & matematika terapan Indonesia Theses SEIR model, complex SEIR model, basic production number basis, maximum interval of basic reproduction number. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/32143 One of the most important things that is needed to be reviewed of biology phenomena such as regulation and disease transmission is uncertainty. These uncertainties usually appear because noise in observation data or limitations of observed components. The limitations of observed data will lead to uncertainty in predicting the parameter values of the biological model used to represent data observation. These uncertainties also cause uncertainty in determining basic reproduction number, representing biology model, and predicting the out put of mathematical models that been observed. In epidemic model, basic reproduction number is one of the most important things used to predict the out put of biological model and control the spread of diseases. The aim of this research is to develop new methods that can be alternative solution to determine the uncertainties in model biology based on data observation. In this research, maximum interval width of basic reproduction number will be determined which is obtained from parameters that are quite good to represent observation data. Hopefully, these methods will produce more accurate prediction in mathematical model, especially for biological models. Deterministic models of disease transmission for the type of direct infection, such as Spanish Flu will be used to apply the methods. Two biology models are used, SEIR model and Complex SEIR model. Furthermore, the biology models that are used in this research are the models which have many equations with many parameters. Heuristic algorithm will be used to generate the parameter prediction values and obtain the maximum interval width of basic reproduction number of epidemic models. This study will useful to give more accurate information in preventing and controlling disease transmission. text |
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Probabilitas & matematika terapan Andriani Br Sebayang, Afrina Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| description |
One of the most important things that is needed to be reviewed of biology phenomena
such as regulation and disease transmission is uncertainty. These uncertainties
usually appear because noise in observation data or limitations of observed components.
The limitations of observed data will lead to uncertainty in predicting the
parameter values of the biological model used to represent data observation. These
uncertainties also cause uncertainty in determining basic reproduction number, representing
biology model, and predicting the out put of mathematical models that
been observed. In epidemic model, basic reproduction number is one of the most
important things used to predict the out put of biological model and control the
spread of diseases. The aim of this research is to develop new methods that can be
alternative solution to determine the uncertainties in model biology based on data
observation. In this research, maximum interval width of basic reproduction number
will be determined which is obtained from parameters that are quite good to
represent observation data. Hopefully, these methods will produce more accurate
prediction in mathematical model, especially for biological models. Deterministic
models of disease transmission for the type of direct infection, such as Spanish Flu
will be used to apply the methods. Two biology models are used, SEIR model and
Complex SEIR model. Furthermore, the biology models that are used in this research
are the models which have many equations with many parameters. Heuristic
algorithm will be used to generate the parameter prediction values and obtain the
maximum interval width of basic reproduction number of epidemic models. This
study will useful to give more accurate information in preventing and controlling
disease transmission. |
| format |
Theses |
| author |
Andriani Br Sebayang, Afrina |
| author_facet |
Andriani Br Sebayang, Afrina |
| author_sort |
Andriani Br Sebayang, Afrina |
| title |
Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| title_short |
Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| title_full |
Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| title_fullStr |
Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| title_full_unstemmed |
Analisis Ketidakpastian dalam Model Matematika pada Fenomena Biologi |
| title_sort |
analisis ketidakpastian dalam model matematika pada fenomena biologi |
| url |
https://digilib.itb.ac.id/gdl/view/32143 |
| _version_ |
1822923801321537536 |