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Flows of continuous-time dymical systems with no periodic orbit as an equivalence class under topological conjugacy relation

Ahmad, Tahir and Tan, L. Ken (2011) Flows of continuous-time dymical systems with no periodic orbit as an equivalence class under topological conjugacy relation. Journal of Mathematics and Statistics, 7 (3). pp. 207-215. ISSN 1549-3644

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Official URL: http://dx.doi.org/10.3844/jmssp.2011.207.215

Abstract

Problem statement: Flows of continuous-time dynamical systems with the same number of equilibrium points and trajectories, and which has no periodic orbit form an equivalence class under the topological conjugacy relation. Approach: Arbitrarily, two trajectories resulting from two distinct flows of this type of dynamical systems were written as a set of points (orbit). A homeomorphism which maps between these two sets is then built. Using the notion of topological conjugacy, they were shown to conjugate topologically. By the arbitrariness in selection of flows and their respective initial states, the results were extended to all the flows of dynamical system of that type. Results: Any two flows of such dynamical systems were shown to share the same dynamics temporally along with other properties such as order isomorphic and homeomorphic. Conclusion: Topological conjugacy serves as an equivalence relation in the set of flows of continuous-time dynamical systems which have same number of equilibrium points and trajectories, and has no periodic orbit.

Item Type:Article
Uncontrolled Keywords:dynamical system, equilibrium points, trajectories, periodic orbit, equivalence class, topological conjugacy, order isomorphic, Flat Elect roencephalography (Flat EEG), dynamical systems
Subjects:Q Science > QA Mathematics
Divisions:Science
ID Code:44930
Deposited By: Haliza Zainal
Deposited On:21 Apr 2015 03:31
Last Modified:31 Jan 2017 06:45

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