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On the Geometry of IFS Fractals and its ApplicationsVass, J??zsef January 2013 (has links)
Visually complex objects with infinitesimally fine features, naturally call for mathematical representations. The geometrical property of self-similarity - the whole similar to its parts - when iterated to infinity generates such features.
Finite sets of affine contractions called Iterated Function Systems (IFS), with their compact attractors IFS fractals, can be applied to represent detailed self-similar shapes, such as trees or mountains. The fine local features of such attractors prevent their straightforward geometrical handling, and often imply a non-integer Hausdorff dimension.
The main goal of the thesis is to develop an alternative approach to the geometry of IFS fractals in the classical sense via bounding sets. The results are obtained with the objective of practical applicability.
The thesis thus revolves around the central problem of determining bounding sets to IFS fractals - and the convex hull in particular - emphasizing the fundamental role of such sets in their geometry. This emphasis is supported throughout the thesis, from real-life and theoretical applications to numerical algorithms crucially dependent on bounding.
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Fracture characterization and estimation of fracture porosity of naturally fractured reservoirs with no matrix porosity using stochastic fractal modelsKim, Tae Hyung 15 May 2009 (has links)
Determining fracture characteristics at the laboratory scale is a major challenge. It is
known that fracture characteristics are scale dependent; as such, the minimum sample
size should be deduced in order to scale to reservoir dimensions. The main factor
affecting mechanical and hydrological characteristics of natural fractures is aperture
distribution, which is a function of scale and confining pressure, rather than roughness
of one fracture surface. Scale and pressure dependencies of artificial and natural
fractures were investigated in this study using an X-Ray CT Scanner. Fractal dimension,
D, and amplitude parameter, A, of fracture aperture approaches a constant value with
increased sampling area, similar to the behavior of fracture roughness. In addition, both
parameters differ under different confining pressures for a reference sampling area.
Mechanical properties of fracture-fracture deformation behavior and fracture normal
stiffness were obtained from CT scan data as well.
Matrix porosity is relatively easy to measure and estimate compared to fracture
porosity. On the other hand, fracture porosity is highly heterogeneous and very difficult to measure and estimate. When matrix porosity of naturally fractured reservoirs (NFR)
is negligible, it is very important to know fracture porosity to evaluate reservoir
performance. Since fracture porosity is highly uncertain, fractal discrete fractal network
(FDFN) generation codes were developed to estimate fracture porosity. To reflect scale
dependent characteristics of fracture networks, fractal theories are adopted. FDFN
modeling technique enables the systematic use of data obtained from image log and
core analysis for estimating fracture porosity. As a result, each fracture has its own
fracture aperture distribution, so that generated FDFN are similar to actual fracture
systems. The results of this research will contribute to properly evaluating the fracture
porosity of NFR where matrix porosity is negligible.
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Realizing the Minimized Balun with Fractal Curve by using LTCC for 802.11a/b/gChen, Li-Ju 14 November 2007 (has links)
A new multilayer ceramic balun with fractal curve for 802.11b/a is presented in this thesis. The fractal curve is implemented in balun design. By using the fractal geometry, the reduction in size of the proposed balun is evident and only several metal layers are used. Excellent results of amplitude balance and phase difference are obtained. In the mean time, there is a 1.3-GHz bandwidth of return loss and the design results in a good matching. The measured results of the LTCC multilayer ceramic balun with fractal curve agree well with the simulation. Satisfactory performance is also obtained. The dimension of the proposed Koch¡¦s and Minkowski_1st balun can be reduced by about 46.4% and 50%, respectively. Finally, the fractal balun is combined with fractal band pass filter and fractal antenna to become a passive module. Simulation of the module has been carried out and we find satisfactory results.
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Data Hiding Technique based on Fractal Orthonormal BasisTsai, Kuen-long 13 October 2005 (has links)
Digital multimedia can be distributed via the internet efficiently with superior compression technologies. The chance of distributing digital intellectual properties, such as image, music, films, and software, being large-scale unauthorized copied and distributed are much increasing one possible and practical solution for the copyright protection is information hiding technology. Information hiding technology embeds a special data into multimedia data for copyright protection. However, the embedded data may be damaged by malicious attacks or common signal processing.
In this thesis, an information hiding technique based on Fractal Orthonormal Basis is proposed. First, the original image is divided into NxN Range blocks, each range block is substituted by several Domain blocks (Fractal Orthonormal Basis), then the watermark information is embedded into the coefficients of the fractal orthonormal basis.
Besides, our technique will be compare with the other two watermarking algorithm (using DCT and DWT). After the attacks of cropping, down-scaling, median filter, smoothing, noise, JPEG, SPIHT and EZW compression, the Fractal Orthonormal Basis watermarking technique shows better result of capacity, transparency and robustness. In addition, we only store parts of compression fractal codes and the permutation seed, and these can be the secret key for the security.
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The Effect of Fractal Dimensionality on Behavioral Judgments of Built EnvironmentsStalker, William Andrew January 2022 (has links)
No description available.
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Selection mechanisms of diffusion-limited growthBarker, Peter William Howes January 1991 (has links)
No description available.
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Fractals in ecology : The effect of the fractal dimension of trees on the body length distribution of arboreal arthropodsMorse, D. R. January 1988 (has links)
No description available.
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Target Detection Using a Wavelet-Based Fractal SchemeStein, Gregory W. 22 May 2006 (has links)
In this thesis, a target detection technique using a rotational invariant wavelet-based scheme is presented. The technique is evaluated on Synthetic Aperture Rader (SAR) imaging and compared with a previously developed fractal-based technique, namely the extended fractal (EF) model. Both techniques attempt to exploit the textural characteristics of SAR imagery. Recently, a wavelet-based fractal feature set, similar to the proposed one, was compared with the EF feature for a general texture classification problem. The wavelet-based technique yielded a lower classification error than EF, which motivated the comparison between the two techniques presented in this paper. Experimental results show that the proposed techniques feature map provides a lower false alarm rate than the previously developed method.
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Definición, diseño y simulación de antena fractal monopolo de SierpinskiSáenz Medina, Josías Salomón January 2009 (has links)
En esta tesis se explora experimentalmente el comportamiento multibanda que le da una característica multifuncional al diseño de la antena. Se busca demostrar que gracias a la autosimilitud o autosimilaridad del fractal, la antena responda con un comportamiento multibanda.
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Fractal Interfaces and Heat Transmission ProblemsLiang, Haodong 18 April 2013 (has links)
The main portion of my thesis focuses on a 2-dimensional second order heat transmission problem in domains with pre-fractal interfaces. My focus is on the numerical approximation of the solutions. Precisely, I€™m concerned to develop a suitable mesh refinement algorithm that could be adapted to our situation, by taking into account the regularity of the solutions and the geometry of irregular pre-fractal interfaces. I obtain an error estimate between the weak solution and the discrete solution, which indicates an optimal rate of convergence as in the classical case when the solution has H^2-regularity. In addition, numerical simulations are also included, which demonstrates the features of our heat transmission model. Another portion of my thesis focuses on the asymptotic analysis of singular boundary value problems with highly conductive layers of pre-fractal type. My models illustrate the problems of a lower- dimensional highly conductive material intruding into a higher- dimensional material with lower conductivity. I consider a 2D model of Sierpinski pre-fractal layers and 3D models of hierarchical layers. The main results consist in the so-called Mosco-convergence of certain energy functionals, which implies the strong convergence of the solutions and of the spectral resolutions as a byproduct in real applications.
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