Directional Decomposition in Anisotropic Heterogeneous Media for Acoustic and Electromagnetic Fields

Jonsson, B. Lars G.

January 2001

Directional wave-field decomposition for heterogeneousanisotropic media with in-stantaneous response is establishedfor both the acoustic and the electromagnetic equations. We derive a sufficient condition for ellipticity of thesystem's matrix in the Laplace domain and show that theconstruction of the splitting matrix via a Dunford-Taylorintegral over the resolvent of the non-compact, non-normalsystem's matrix is well de ned. The splitting matrix also hasproperties that make it possible to construct the decompositionwith a generalized eigenvector procedure. The classical way ofobtaining the decomposition is equivalent to solving analgebraic Riccati operator equation. Hence the proceduredescribed above also provides a solution to the algebraicRiccati operator equation. The solution to the wave-field decomposition for theisotropic wave equation is expressed in terms of theDirichlet-to-Neumann map for a plane. The equivalence of thisDirichlet-to-Neumann map is the acoustic admittance, i.e. themapping between the pressure and the particle velocity. Theacoustic admittance, as well as the related impedance aresolutions to algebraic Riccati operator equations and are keyelements in the decomposition. In the electromagnetic case thecorresponding impedance and admittance mappings solve therespective algebraic Riccati operator equations and henceprovide solutions to the decomposition problem. The present research shows that it is advantageous toutilize the freedom implied by the generalized eigenvectorprocedure to obtain the solution to the decomposition problemin more general terms than the admittance/impedancemappings. The time-reversal approach to steer an acoustic wave eld inthe cavity and half space geometries are analyzed from aboundary control perspective. For the cavity it is shown thatwe can steer the field to a desired final configuration, withthe assumption of local energy decay. It is also shown that thetime-reversal algorithm minimizes a least square error forfinite times when the data are obtained by measurements. Forthe half space geometry, the boundary condition is expressedwith help of the wave-field decomposition. In the homogeneousmaterial case, the response of the time-reversal algorithm iscalculated analytically. This procedure uses the one-wayequations together with the decomposition operator.

directional wave-field decomposition

wave splitting

spectral reduction

aourstic anisotropy

electromagnetic anisotropy

generalized eigenvalue problem

On the Development of Coherent Structure in a Plane Jet (Part1, Characteristics of Two-Point Velocity Correlation and Analysis of Eigenmodes by the KL Expansion)

SAKAI, Yasuhiko, TANAKA, Nobuhiko, KUSHIDA, Takehiro

02 1900

No description available.

Jet

Turbulence

Vortex

Flow Measurements

Spatial Velocity Correlation

Karhunen Loève Expansion

Coherent Structure

Eigenvalue

Eigenfunction

Construction of Appearance Manifold with Embedded View-Dependent Covariance Matrix for 3D Object Recognition

MURASE, Hiroshi, IDE, Ichiro, TAKAHASHI, Tomokazu, Lina

01 April 2008

No description available.

eigenspace

eigenvalue interpolation

eigenvector interpolation

view-dependent covariance matrix

appearance manifold

3D object recognition

Improved Spectral Calculations for Discrete Schroedinger Operators

Puelz, Charles

16 September 2013

This work details an O(n^2) algorithm for computing the spectra of discrete Schroedinger operators with periodic potentials. Spectra of these objects enhance our understanding of fundamental aperiodic physical systems and contain rich theoretical structure of interest to the mathematical community. Previous work on the Harper model led to an O(n^2) algorithm relying on properties not satisfied by other aperiodic operators. Physicists working with the Fibonacci Hamiltonian, a popular quasicrystal model, have instead used a problematic dynamical map approach or a sluggish O(n^3) procedure for their calculations. The algorithm presented in this work, a blend of well-established eigenvalue/vector algorithms, provides researchers with a more robust computational tool of general utility. Application to the Fibonacci Hamiltonian in the sparsely studied intermediate coupling regime reveals structure in canonical coverings of the spectrum that will prove useful in motivating conjectures regarding band combinatorics and fractal dimensions.

Quasicrystal

Schroedinger operator

discrete Schroedinger operator

Jacobi operator

Cantor spectrum

fractal dimension

large scale eigenvalue computations

Model correlation of an articulated hauler frame

Lundgren, Paulina, Harbe Husein, Mohammed

January 2010

This master thesis has been carried out on behalf of Volvo Construction Equipment. A front frame of an articulated hauler should be analysed according to the Finite Element Method and vibration tests should be made. The results from the experimental tests should be correlated with the analytical test results here using MAC-values. These values will show if the FE-model represents the physical structure correctly. Visualisations are made on both the experimental and analytical results to get a better understanding about the eigenmodes of the frame. The final results showed that the FE-model was not a match to the physical structure which the experimental tests were made on. It should be noted that the final result only states the present situation. The CAD-model had not been completed when this thesis was performed and therefore some deviation occurred in the results. Some actions are needed in order to reach a better result and they are stated in this report. When they are made, the results can be improved by following the work that has been done in this master thesis.

Mode shape

Finite Element

Eigenvalue

vibration

deformation

MAC

Mechanical engineering

Maskinteknik

FPGA based Eigenvalue Detection Algorithm for Cognitive Radio

TESHOME, ABIY TEREFE

January 2010

Radio Communication technologies are undergoing drastic demand over the past two decades. The precious radio resource, electromagnetic radio spectrum, is in vain as technology advances. It is required to come up with a solution to improve its wise uses. Cognitive Radio enabled by Software-Defined Radio brings an intelligent solution to efficiently use the Radio Spectrum. It is a method to aware the radio communication system to be able to adapt to its radio environment like signal power and free spectrum holes. The approach will pose a question on how to efficiently detect a signal. In this thesis different spectrum sensing algorithm will be explained and a special concentration will be on new sensing algorithm based on the Eigenvalues of received signal. The proposed method adapts blind signal detection approach for applications that lacks knowledge about signal, noise and channel property. There are two methods, one is ratio of the Maximum Eigenvalue to Minimum Eigenvalue and the second is ratio of Signal Power to Minimum Eigenvalue. Random Matrix theory (RMT) is a branch of mathematics and it is capable in analyzing large set of data or in a conclusive approach it provides a correlation points in signals or waveforms. In the context of this thesis, RMT is used to overcome both noise and channel uncertainties that are common in wireless communication. Simulations in MATLAB and real-time measurements in LabVIEW are implemented to test the proposed detection algorithms. The measurements were performed based on received signal from an IF-5641R Transceiver obtained from National Instruments.

FPGA

Eigenvalue

Detection Algorithm

Cognitive Radio

RMT

Spectrum Sensing

LabVIEW

Signal Processing

Telecommunication

Telekommunikation

Largest Laplacian Eigenvalue and Degree Sequences of Trees

Biyikoglu, Türker, Hellmuth, Marc, Leydold, Josef

January 2008

We investigate the structure of trees that have greatest maximum eigenvalue among all trees with a given degree sequence. We show that in such an extremal tree the degree sequence is non-increasing with respect to an ordering of the vertices that is obtained by breadth-first search. This structure is uniquely determined up to isomorphism. We also show that the maximum eigenvalue in such classes of trees is strictly monotone with respect to majorization. (author´s abstract) / Series: Research Report Series / Department of Statistics and Mathematics

MSC 05C35, 05C75, 05C05, 05C50

Non-conforming Finite Element Methods for Eigenvalue Problems

Shen, Hung-Jou

02 August 2005

The thesis explores the new expansions of eigenvalues for -£Gu =£f£lu in S with the Dirichlet boundary condition u=0 on $partial S$ by two conforming elements: the linear element $P_1$ and the bilinear element $Q_1$, and three non-conforming elements: the rotated bilinear element (denoted $Q_1^{rot}$), the extension of $Q_1^{rot}$ (denoted $EQ_1^{rot}$) and Wilson's element. The expansions indicate that $P_1$, $Q_1$ and $Q_1^{rot}$ provide the upper bounds of the eigenvalues, and $EQ_1^{rot}$ and Wilson's elements provide the lower bounds of the eigenvalues. Comparing the five finite elements, the $Q_1^{rot}$ element is more accurate. By the extrapolation, the superconvergence $O(h^4)$ can be obtained where $h$ is the boundary length of uniform squares. Numerical experiment are carried to verify the theoretical analysis made. (°Ñ·Ó¹q¤lÀÉp.4)

extension of rotated bilinear element

rotated bilinear element

Wilson's element

bilinear element

linear element

non- conforming

eigenvalue

conforming

The Trefftz Method for Solving Eigenvalue Problems

Tsai, Heng-Shuing

03 June 2006

For Laplace's eigenvalue problems, this thesis presents new algorithms of the Trefftz method (i.e. the boundary approximation method), which solve the Helmholtz equation and then use a iteration process to yield approximate eigenvalues and eigenfunctions. The new iteration method has superlinear convergence rates and gives a better performance in numerical testing, compared with the other popular methods of rootfinding. Moreover, piecewise particular solutions are used for a basic model of eigenvalue problems on the unit square with the Dirichlet condition. Numerical experiments are also conducted for the eigenvalue problems with singularities. Our new algorithms using piecewise particular solutions are well suited to seek very accurate solutions of eigenvalue problems, in particular those with multiple singularities, interfaces and those on unbounded domains. Using piecewise particular solutions has also the advantage to solve complicated problems because uniform particular solutions may not always exist for the entire solution domain.

nonlinear solutions

the cracked beam

interfaces

Helmholtz equation

eigenvalue problems

the Trefftz method

Analysis on the Influence Factors of Consumers' Striving for their own Rights

Lin, King-long

13 July 2007

The objective of this study is to investigate consumers in the Taiwan region, the situation that when their due rights were being infringed, they had rather accept the unfair treatment from the manufacturers or suppliers, and will not strive for their own rights. In the consumer market, events of consumer right infringement are happening each day, seriously hindering the market order of fair competition. In this moment of the 2007, what are the thoughts within the minds of the consumers in Taiwan ? What are the factors that influence consumers striving for their due rights? In this study, the following issues were reviewed: relationships between manufacturers and consumers; consumer¡¦s cognizance of consumer rights; consumer protection; the roles of the law; government and consumer protection institutions in consumer protection; consumer education; and, consumer self-protection of consumer rights. A survey questionnaire was developed based on five themes of consumers themselves, consumer knowledge, law, government and consumer protection institutions. The survey attempts to understand the internal views of consumers. Consumers in the northern, central and southern Taiwan were randomly sampled according to population distribution. After collecting 170 questionnaires, the responses were coded and analyzed with SAS (statistical software) using Factor Analysis, one-way MANOVA and one-way ANOVA. Several latent factors were extracted, and the difference between consumer gender, age, education background and living region were studied. The results of statistical analysis indicate in 2007, the four main factors affecting consumers¡¦ strive for their rights are: (1) lack of external protection, (2) lack of self-confidence in claiming their rights, (3) dysfunction of consumer protection institutions, and, (4) lack of consumer knowledge. The results further show that the factors differ among living regions, however there is no evidence that there are differences in consumers gender, age and education background. This study has also investigates the level of consumer rights awareness, and the differences in gender, age, education background and living region in such cognizance. The results of statistical analysis show a very low awareness of consumer rights, and there is no evidence to conclude difference between gender, age, education background and living region.

Consumer Right

Information Asymmetry

Latent Factor

Eigenvalue

Consumer Protection

Factor Analysis

Consumer Association

Consumer Education