NUMBER OF PERIODIC POINTS OF CONGRUENTIAL MONOMIAL DYNAMICAL SYSTEMS

Bashir, Nazir, Islam, MD.Hasirul

January 2012

In this thesis we study the number of periodic points of congruential monomial dynamical system. By concept of index calculus we are able to calculate the number of solutions for congruential equations. We give formula for the number of r-periodic points over prime power. Then we discuss about calculating the total number of periodic points and cycles of length r for prime power.

periodic points

monomial dynamical system

index calculus

Compact Dynamical Foliations

Carrasco Correa, Pablo Daniel

09 June 2011

According to the work of Dennis Sullivan, there exists a smooth flow on the 5-sphere all of whose orbits are periodic although there is no uniform bound on their periods. The question addressed in this thesis is whether such an example can occur in the partially hyperbolic context. That is, does there exist a partially hyperbolic diffeomorphism of a compact manifold such that all the leaves of its center foliation are compact although there is no uniform bound for their volumes. We will show that the answer to the previous question under the very mild hypothesis of dynamical coherence is no. The thesis is organized as follows. In the first chapter we give the necessary background and results in partially hyperbolic dynamics needed for the rest of the work, studying in particular the geometry of the center foliation. Chapter two is devoted to a general discussion of compact foliations. We give proof or sketches of all the relevant results used. Chapter three is the core of the thesis, where we establish the non existence of Sullivan's type of examples in the partially hyperbolic domain, and generalize to diffeomorphisms whose center foliation has arbitrary dimension. The last chapter is devoted to applications of the results of chapter three, where in particular it is proved that if the center foliation of a dynamically coherent partially hyperbolic diffeomorphism is compact and without holonomy, then it is plaque expansive.

Compact Foliations

Partially Hyperbolic

Dynamical Systems

0280

Index pairs : from dynamics to combinatorics and back

Syzmczak, Andrzej

05 1900

No description available.

Index theory (Mathematics)

Differentiable dynamical systems

Dynamics of billiards

Del Magno Gianluigi

08 1900

No description available.

Statistical mechanics

Differentiable dynamical systems

Billiards

Skew-product semiflows and time-dependent dynamical systems

Leiva, Hugo

12 1900

No description available.

Nonlinear equations

Differentiable dynamical systems

Differential equations

Computation of homology and an application to the conley index

Watson, Greg M.

08 1900

No description available.

Homology theory

Algorithms

Differentiable dynamical systems

Exploring global dynamics : a numerical algorithm based on the Conley index theory

Eidenschink, Michael

08 1900

No description available.

Differentiable dynamical systems

Differential equations

Topological dynamics

Modulated pattern formation : stabilization, complex-order, and symmetry

Rogers, Jeffrey L.

05 1900

No description available.

Differentiable dynamical systems

Chaotic behavior in systems

Entropy measures in dynamical systems and their viability in characterizing bipedal walking gait dynamics

Leverick, Graham

11 September 2013

Entropy measures have been widely used to quantify the complexity of theoretical and experimental dynamical systems. In this thesis, two novel entropy measures are developed based on using coarse quantization to classify and compare dynamical features within a time series; quantized dynamical entropy (QDE) and a quantized approximation of sample entropy (QASE). Following this, comprehensive guidelines for the quantification of complexity are presented based on a detailed investigation of the performance characteristics of the two developed measures and three existing measures; permutation entropy, sample entropy and fuzzy entropy. The sensitivity of the considered entropy measures to changes in dynamics was assessed using the case study of characterizing bipedal walking gait dynamics. Based on the analysis conducted, it was found that sample entropy and fuzzy entropy, while computationally inefficient, provide the best overall performance. In instances where computational efficiency is vital, QDE and QASE serve as viable alternatives to existing methods.

Dynamical systems

Entropy

Complexity

Time series

Entropy measures in dynamical systems and their viability in characterizing bipedal walking gait dynamics

Leverick, Graham

11 September 2013

Entropy measures have been widely used to quantify the complexity of theoretical and experimental dynamical systems. In this thesis, two novel entropy measures are developed based on using coarse quantization to classify and compare dynamical features within a time series; quantized dynamical entropy (QDE) and a quantized approximation of sample entropy (QASE). Following this, comprehensive guidelines for the quantification of complexity are presented based on a detailed investigation of the performance characteristics of the two developed measures and three existing measures; permutation entropy, sample entropy and fuzzy entropy. The sensitivity of the considered entropy measures to changes in dynamics was assessed using the case study of characterizing bipedal walking gait dynamics. Based on the analysis conducted, it was found that sample entropy and fuzzy entropy, while computationally inefficient, provide the best overall performance. In instances where computational efficiency is vital, QDE and QASE serve as viable alternatives to existing methods.

Dynamical systems

Entropy

Complexity

Time series