HEAL DSpace

Ασυμπτωτική ανάλυση ταλαντωτικών συστημάτων με χρήση της μεθόδου CSP

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dc.contributor.advisor Γκούσης, Δημήτριος el
dc.contributor.author Ασβεστάς, Κυριάκος Δ. el
dc.contributor.author Asvestas, Kyriakos D. en
dc.date.accessioned 2011-12-27T09:16:30Z
dc.date.available 2011-12-27T09:16:30Z
dc.date.copyright 2011-07-25 -
dc.date.issued 2011-12-27
dc.date.submitted 2011-07-25 -
dc.identifier.uri https://dspace.lib.ntua.gr/xmlui/handle/123456789/5721
dc.identifier.uri http://dx.doi.org/10.26240/heal.ntua.8858
dc.description 65 σ. el
dc.description.abstract In spite of the rapid and significant increase in computing power of current processors and parallel computational architectures, the numerical solution of multi-scale problems (chemical kinetics, biological modeling, atmospheric prediction, control, electronics, etc.) remains a daunting task, mostly because the time scales of interest are usually much slower than the fastest time scales characterizing this class of systems. The mathematical models which attempt at reproducing this phenomenology, are usually classified as being ‘‘stiff’’. Stiffness can indeed be associated with a spread in the magnitude of (i) the real, negative part of the eigenvalues of the system, and/or (ii) their imaginary part; the first category being associated with the presence of dissipative processes, such as viscous dissipation and/or chemical reactions, and the latter to nonlinear convective transport or nonlinear oscillatory behavior Specifically, the thesis is formatted as follows. In the first chapter, we will define the singular perturbation method will in parallel we will present a short description of the CSP method and its fundamental features, as they are mandatory for the understanding of the present work. Then, we will refer and try to prove the basic points of the modified CSP method, as they were first stated by S.H.Lam and D.A.Goussis. Finally, in two different chapters, we will study two specific examples, both analytically and numerically. The first problem consists of three masses which can move horizontally. The masses are connected with a linear and a non-linear spring, as well as with two dampers. The coupled motion of the three masses in combination with the slight difference in their frequencies characterize the problem as "stiff". The second problem, consists of a rod which can move on the vertical axis. At the end of the rod, lies a pendulum. The coupled motion of the pendulum and the rod describes a stiff system, with the fraction of their natural frequencies as the small parameter. These two mechanical systems are two simple approaches of soft/stiff systems. en
dc.description.statementofresponsibility Κυριάκος Δ. Ασβεστάς el
dc.language.iso el en
dc.rights ETDRestricted-policy.xml en
dc.subject Ασυμπτωτική ανάλυση el
dc.subject Ταλαντωτικά συστήματα el
dc.subject Θεωρία αδιάστατων πολλαπλοτήτων el
dc.subject Συζευγμένες ταλαντώσεις el
dc.subject Πολλαπλότητες el
dc.subject CSP en
dc.subject Computational singular perturbation en
dc.subject Invariant manifold theory en
dc.subject Geometric singular perturbation en
dc.subject Coupled oscillations en
dc.title Ασυμπτωτική ανάλυση ταλαντωτικών συστημάτων με χρήση της μεθόδου CSP el
dc.title.alternative Asymptotic analysis of oscillatory systems en
dc.type bachelorThesis el (en)
dc.date.accepted 2011-04-20 -
dc.date.modified 2011-07-25 -
dc.contributor.advisorcommitteemember Σιέττος, Κωνσταντίνος el
dc.contributor.advisorcommitteemember Γεωργίου, Ιωάννης el
dc.contributor.committeemember Γκούσης, Δημήτριος el
dc.contributor.committeemember Σιέττος, Κωνσταντίνος el
dc.contributor.committeemember Γεωργίου, Ιωάννης el
dc.contributor.department Εθνικό Μετσόβιο Πολυτεχνείο. Σχολή Εφαρμοσμένων Μαθηματικών & Φυσικών Επιστημών. Τομέας Μηχανικής el
dc.date.recordmanipulation.recordcreated 2011-12-27 -
dc.date.recordmanipulation.recordmodified 2011-12-27 -


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