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An exploratory study into grade 12 learners’ understanding of Euclidean Geometry with special emphasis on cyclic quadrilateral and tangent theoremsCassim, Ishaak 16 February 2007 (has links)
Student Number : 8800092K -
MSc research report -
School of Education -
Faculty of Science / This research report explored the strategies which grade 12 learners employ to solve
geometric problems. The purpose of this research was to gain an understanding of
how grade 12 learners begin to solve geometric problems involving cyclic
quadrilateral and tangent theorems. A case study method was used as the main
research method. The study employed the van Hiele level’s of geometric thought as a
method for categorising learners levels of understanding. Data about the strategies
which learners recruit to solve geometric problems were gathered using learner-based
tasks, semi-structured interviews and document analysis.
From the data gathered, the following patterns emerged: learners incorrect use of
theorems to solve geometrical problems; learners base their responses on the visual
appearance of the diagram; learners “force “ a solution when one is not available;
learners’ views of proof. Each of these aspects is discussed.
The report concludes that learners strategies to solving geometric problems are based
largely on the manner in which educators approach the solving of geometrical
problems.
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Multi-dimensional Histogram-based Watermarking Scheme for Resisting Geometric and Signal Processing AttacksSu, Hung 21 June 2004 (has links)
Many digital watermarking schemes have been proposed for copyright protection recently due to the rapid growth of multimedia data distribution. Robustness is one of the crucial important issues in watermarking. But, most of traditional digital watermarking schemes is normally not to resist both geometric distortion and signal processing attacks well.
There are two different types of solutions to resisting geometrical attacks: nonblind and blind methods. With the noblind approach, due to availability of the original image, the problem can be resolved with a good solution by elective search between the geometrically attacked and unattacked image. The blind solution, which does not use the original image in watermark extraction, is obviously more challenging.
In this research, we propose a blind watermarking scheme which based on histogram property. So that, we propose a novel scheme to define the lattice structure of color space of host image for embedding watermark data. We utilize the histograms of various properties that calculated from the host image, and partition each histogram space into several divisions with dynamic interval. The number of pixels of each division is equal. And then we embed watermark data by modifying distribution of each division.
The experimented results present the algorithm is robust to resist common geometric attacks and high quality JPEG compression at the same time.
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Application of geometric programming to PID controller tuning with state constraintsCarver, Leonard James January 1976 (has links)
In the thesis, geometric programming is considered as a numerical
optimization technique. The problem of minimizing the integral square error of a system characterized by a second order plant with proportional-
integral-derivative (PID) controller is investigated. Constraints
are imposed upon the state of the system In order to obtain feasible solutions and conditions that are amenable to the geometric programming technique.
The application of geometric programming requires the use of approximation procedures to eliminate untenable conditions in the objective
and constraint functions. The techniques utilized render solutions that are easily obtainable, usually amounting to solving a set of linear equations and requiring no differentiation of terms. In addition, there is rapid convergence to an optimum. The accuracy of the results is dependent upon the validity of the approximations. / Applied Science, Faculty of / Electrical and Computer Engineering, Department of / Graduate
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Monotonicity Formulas in Nonlinear Potential Theory and their geometric applicationsBenatti, Luca 09 June 2022 (has links)
In the setting of Riemannian manifolds with nonnegative Ricci curvature, we provide geometric inequalities as consequences of the Monotonicity Formulas holding along the flow of the level sets of the p-capacitary potential. The work is divided into three parts. (1) In the first part, we describe the asymptotic behaviour of the p-capactitary potential in a natural class of Riemannian manifolds. (2) The second part is devoted to the proof of our Monotonicity-Rigidity Theorems. (3) In the last part, we apply the Monotonicity Theorems to obtain geometric inequalities, focusing on the Extended Minkowski Inequality.
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Obstructions to Riemannian smoothings of locally CAT(0) manifoldsSathaye, Bakul, Sathaye 18 October 2018 (has links)
No description available.
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Partial Differential Equations for Geometric DesignUgail, Hassan 20 March 2022 (has links)
No / This title provides detailed description of how Partial Differential Equations are used in the field of geometric design, and supplies clear and concise explanations of how to implement the techniques described. It also offers extensive discussions (with examples) or practical applications of Partial Differential Equations in geometric design.
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Shape Morphing Using PDE SurfacesGonzalez Castro, Gabriela, Ugail, Hassan, Willis, P., Palmer, Ian J. January 2006 (has links)
No / A methodology for shape morphing using partial differential
equation (PDE) surfaces is presented in this work.
The use of the PDE formulation shows how shape morphing
can be based on a boundary-value approach by which
intermediate shapes can be created. Furthermore, the
mathematical properties of the method give rise to several
alternatives in which morphing one shape into another
can be achieved. Three of these alternatives are presented
here. The first one is based on the gradual variation of
the weighted sum of the boundary conditions for each
surface, the second one consists of varying the Fourier
mode for which the PDE is solved whilst the third results
from a combination of the first two. Examples showing the
efficiency of these methodologies are presented. Thus, it is
shown that the PDE based approach for morphing, when
combined with a parametric variation of the boundary
conditions, is capable of obtaining smooth intermediate
surfaces automatically.
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Surface intersections for solid modellingSolomon, B. J. January 1985 (has links)
No description available.
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Extraction of machining features through reconstruction of solid geometry from orthographic representationsLi, Yan Bin January 1993 (has links)
No description available.
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Free-form blending surfaces in solid modellingWhayeb, Shakir M. January 1991 (has links)
No description available.
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