Modular methodology for the mathematical modeling of dynamic systems extended for distributed parameter systems

Abstract

A literature review on mathematical modeling of dynamic systems reveals that the main developments on the areas of lumped parameter systems and distributed parameter systems are far apart from each other, from the abstract conception of the models to simulation techniques. If, in one hand, it would be useful to propose an unified point of view for the modeling procedures of both lumped and distributed parameter systems, on the other hand, it would be unpractical to assume that the accomplishment of such an objetive would involve the development of novel formalisms other than the traditional ones. A much more straightforward approach would involve the use of as much already known models (derived according to conventional formalisms) as possible in the modeling of a given dynamic system. This possibility has been extensively explored in the modular modeling methodology, proposed by the candidate in his doctoral thesis, although still restricted to lumped parameter systems. In this methodology, a complex system can be conceived as a hierarchy of subsystems, and the description of the constraints among them, along with the mathematical models of the elementar subsystems is sufficient for the derivation of a model for the whole system. The main objective of the research project proposed in this plan is the extension of the same perspective and language of the original modular methodology to address, concomitantly, lumped and distributed parameters subsystems. In order to motivate a formalization of the novel methodology focusing on actual Engineering applications, case studies on fluid-structure interaction are going to be developed along with the research. This area of knowledge not only is one of the research lines of Offshore Mechanics Laboratory, but also involves multi-physics subsystems, being a promising area for testing the novel methodology. (AU)