Preface
Mathematical modeling of the system is extracting the essence of practical problems into systematic mathematical language. In system modeling, mathematical expression deals with modeling and its applications. It is characterized by how a modeling competency can be categorized and how its activity can contribute to building up these competencies. Mathematical modeling of a practical system is an attractive field of research and a grown-up subject with a variety of applications. The main objective of mathematical modeling is to predict the behavior of the system under different operating conditions, to design and implement efficient control strategies to achieve the desired performance. A considerable research effort has been directed to the development of a model, which must be understandable and easy to analyze. It is a very difficult task to develop mathematical modeling of complicated practical systems considering all its possible high-level non-linearity and cross-couple dynamics. Although mathematical modeling of nonlinear systems sounds quite interesting, it is difficult to formulate the general solution to analyze and synthesize nonlinear dynamical systems.
This book covers the different features of the mathematical modeling of real physical systems like grid-connected hybrid power system, microgrid network, harmonics modeling of the power system, active power filter, photovoltaic panels, current transformer, induction motor drive, DC/DC converter, and lithium-ion ...
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