PARAMETER ESTIMATION OF FUZZY ORDINARY DIFFERENTIAL EQUATIONS
Most of systems in the real world contain uncertainties. Those uncertainties can be caused by limited available data, network complexity of the system, environmental or demographic changes during doing experiments. Therefore, a mathematical modeling is needed as an effort to understand the system...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/35977 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Most of systems in the real world contain uncertainties. Those uncertainties can be
caused by limited available data, network complexity of the system, environmental
or demographic changes during doing experiments. Therefore, a mathematical
modeling is needed as an effort to understand the system phenomenon, to simulate
pre-experiments before actually being implemented, or to study dynamics of system
that is often difficult or even not manageable by experiments. By accommodating
uncertainty factors in initial values and parameters in the model, an in depth study
is needed to describe the structure of mathematics, the methodology for determining
solutions, and procedures for estimating parameters. To get insight into these, in
this dissertation we take an exponential growth model, a logistic growth model,
a Goodwin model and a forced Van Der Pol model, as our study objects. These
models are all assumed to have uncertainties in the initial values in the form of
fuzzy numbers, known as fuzzy models. They are examined using three fuzzy differential
approaches, namely Hukuhara Differential and its generalizations, and Fuzzy
Differential Inclusions. Applications of the concept of fuzzy arithmetic to these
models lead to alpha-cut deterministic systems. The alpha-cut deterministic system
is then solved using two numerical methods: the classical Runge-Kutta and the
extended Runge-Kutta methods. Among these three fuzzy approaches, fuzzy differential
inclusion is the most appropriate approach to capture the periodic behavior
of equations, for both numerical methods. By choosing the concept of fuzzy differential
inclusion, a procedure to estimate parameters is presented for a set of fuzzy
data simulation using the nonlinear least squares method. |
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