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Solving Maximum Number of Run Using Genetic AlgorithmChan, Kelvin January 2008 (has links)
<p> This thesis defends the use of genetic algorithms (GA) to solve the maximum number of
repetitions in a binary string. Repetitions in strings have significant uses in many
different fields, whether it is data-mining, pattern-matching, data compression or
computational biology 14]. Main extended the definition of repetition, he realized that
in some cases output could be reduced because of overlapping repetitions, that are
simply rotations of one another [10]. As a result, he designed the notion of a run to
capture the maximal leftmost repetition that is extended to the right as much as
possible. Franek and Smyth independently computed the same number of maximum
repetition for strings of length five to 35 using an exhaustive search method. Values
greater than 35 were not computed because of the exponential increase in time
required. Using GAs we are able to generate string with very large, if not the maximum,
number of runs for any string length. The ability to generate strings with large runs is an
advantage for learning more about the characteristics of these strings. </p> / Thesis / Master of Science (MSc)
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Theory of Binary Mixtures of Diblock Copolymers: A New Route to the Double-Diamond & Plumber’s Nightmare PhasesLai, Chi To January 2017 (has links)
We study the formation of novel bicontinuous phases in binary mixtures of AB diblock copolymers (DBCP) using the polymeric self-consistent field theory. We predict that the bicontinuous double-diamond (DD) and plumber’s nightmare (P) phases, which are metastable phases of neat diblock copolymers, could be stablized in gyroid-forming A-minority DBCPs via the blending of specifically designed A-majority DBCPs. The mechanisms of stabilizing different bicontinuous phases are revealed by analyzing the spatial distribution of the different DBCPs. It is found that the A-majority DBCPs residing mainly in the nodes of the structure, thus alleviating the packing frustration of the A-blocks. Furthermore, a local segregation of the two DBCPs occurs at the AB interface, thus regulating the local curvature of the interfaces. A synergetic interplay of these two mechanisms results in a larger stable region of the DD and P phases via the addition of tailored A-majority DBCPs. The theoretical study provides an efficient route to obtain novel bicontinuous phases. / Thesis / Master of Science (MSc)
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Trans(cending) Recovery: Discussions with Trans and Non-binary Folks Around Recovery in the Context of Eating DisordersPinelli, Alicia January 2019 (has links)
Eating disorders affect an estimated 1 million Canadians per year and have the highest mortality rate of all mental illnesses (Statistics Canada, 2016; Arcelus, Mitchell, & Wales, 2011). Research suggests that those who fall under the transgender umbrella are at a higher risk for developing mental health concerns, and more specifically disordered eating practices (Dhejne, Vlerken, Heylens, & Arcelus, 2016). Despite this the existing literature on this population is lacking, with little research going outside of the gender binary. Majority of the existing literature is limited in looking at individual case studies seeking to prove that transgender folks can struggle with disordered eating, rather than bring attention to the experiences of transgender individuals within eating disorder treatment and recovery. The purpose of this study was to expand on the current literature by bringing in the voices of lived experience. Semi-structured interviews were conducted with individuals, over the age of 18, who identify their gender as falling under the transgender umbrella who have participated in a form of eating disorder recovery for a minimum of one year. Through a thematic analysis, commonalities were uncovered between the participants stories leading to the identification of five themes: the connection between gender identity and eating disorder development, the impact of LGBTQ+ beauty standards, discrimination within the healthcare system, the use of the internet, and the role of community in recovery. The findings suggest there is a strong connection between transgender identity and the development of eating disorder behaviours that create an experience vastly different than the cisgendered reality in which the treatment programs are based. To address these differences the participants provided guidance towards recommendation for practitioners and treatment including: mandated training on both transgender identities and eating disorders, the development of supportive and inclusive environments, the creation of a transgender specific eating disorder treatment program. Further, topics for future research to deepen the understanding of the experiences shared within the study included: impact of online eating disorder support for trans and non-binary individuals, the variance in experience between binary transgender and non-binary identities within treatment, and the impacts of race and ethnicity on the experiences of transgender individuals. / Thesis / Master of Social Work (MSW)
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Electromagnetic and Multimessenger Signals From Magnetized Outflows of Compact Object BinariesSridhar, Navin January 2024 (has links)
The extreme environments around compact object binaries make them rich laboratories to study some of the most energetic and enigmatic astrophysical phenomena known or unbeknownst to us.
Many such high-energy astrophysical events are powered by relativistic, magnetized outflows that arise from the interaction of the compact object with its companion star during its evolution. Such macroscopic outflows are expected to be sources of magnetic dissipation, and consequently, particle energization, through microscopic processes such as magnetic reconnection, turbulence, or large-scale shocks.
In this dissertation, I present novel scenarios that predict, and offer explanations to the observed, high-energy electromagnetic and multimessenger signals, potentially generated by the magnetized outflows from compact object binaries during different stages of their evolution. These scenarios are modeled using analytical calculations and numerical simulations.
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Thermal Behavior of Benzoic Acid/Isonicotinamide Binary CocrystalsBuanz, A.B.M., Prior, T.J., Burley, J.C., Raimi-Abraham, B.T., Telford, Richard, Hart, M., Seaton, Colin C., Davies, P.J., Scowen, Ian J., Gaisford, S., Williams, G.R. 2015 May 1926 (has links)
Yes / A comprehensive study of the thermal behavior of the 1:1 and 2:1 benzoic acid/isonicotinamide cocrystals is reported. The 1:1 material shows a simple unit cell expansion followed by melting upon heating. The 2:1 crystal exhibits more complex behavior. Its unit cell first expands upon heating, as a result of C–H···π interactions being lengthened. It then is converted into the 1:1 crystal, as demonstrated by significant changes in its X-ray diffraction pattern. The loss of 1 equiv of benzoic acid is confirmed by thermogravimetric analysis–mass spectrometry. Hot stage microscopy confirms that, as intuitively expected, the transformation begins at the crystal surface. The temperature at which conversion occurs is highly dependent on the sample mass and geometry, being reduced when the sample is under a gas flow or has a greater exposed surface area but increased when the heating rate is elevated.
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A methodology for feature based 3D face modelling from photographsAbson, Karl, Ugail, Hassan, Ipson, Stanley S. January 2008 (has links)
Yes / In this paper, a new approach to modelling 3D faces based on 2D images is introduced. Here 3D faces are created using two photographs from which we extract facial features based on image manipulation techniques. Through the image manipulation techniques we extract the crucial feature lines of the face in two views. These are then used in modifying a template base mesh which is created in 3D. This base mesh, which has been designed by keeping facial animation in mind, is then subdivided to provide the level of detail required. The methodology, as it stands, is semi-automatic whereby our goal is to automate this process in order to provide an inexpensive and expedient way of producing realistic face models intended for animation purposes. Thus, we show how image manipulation techniques can be used to create binary images which can in turn be used in manipulating a base mesh that can be adapted to a given facial geometry. In order to explain our approach more clearly we discuss a series of examples where we create 3D facial geometry of individuals given the corresponding image data.
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Adaptable Monsters: The Past, Present, and Future of the Vampire Narrative as a Metaphor for Margianalized GroupsWei, Alexa 01 January 2015 (has links)
This thesis paper gives a brief history of the vampire narrative and its role in representing the collective anxieties of an age as well as serving as a metaphor for oppressed peoples. It uses Bram Stoker’s Dracula and J. Sheridan le Fanu’s Carmilla as historical examples of how the vampire adapts to suit issues of the day such as reverse colonization and female sexuality, respectively. The latter part of this paper speculates on the future role of the vampire in literature and proposes that the vampire could be used to discuss transgender issues as well as challenge the gender binary. It addresses the suitability of the vampire narrative in particular for representing gender as a spectrum using the lenses of Foucault’s heterotopias, Kristeva’s abject, and Freud’s uncanny and pulls examples of early evidence of this trend from Anne Rice’s Vampire Chronicles.
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Phase stability study of Pt-Cr and Ru-Cr binary alloysTibane, Meriam Malebo January 2011 (has links)
Thesis (Ph.D. (Physics)) --University of Limpopo, 2011 / Planewave pseudopotential calculations were conducted to predict the
energetics and phase stability of Pt-Cr and Ru-Cr binary alloys. Validation
of appropriate number of k-points and planewave energy cut-off was carried
out for all studied systems. At the composition of A3B and AB3 (where
A = Cr and B = Pt or Ru) phases, the heats of formation determined for
five different structures, L12, A15, tP16, DOC and DO′
C are almost of the
same magnitude and the relaxed structures show no rotation. We observed
that the cubic L12 Pt3Cr is the most stable structure in agreement with the
experiments. The results for PtCr3 indicate the negative heat of formation for
the A15 phase whereas all the remaining studied phases have positive heats
of formation. It is clear that the PtCr3 (A15) is the most stable structure.
PtCr (L10) was found to be more stable compared with PtCr (B2) phase. The
L12 Pt3Cr, A15 PtCr3 and L10 PtCr phases could be considered as possible
coatings to cover the engines which are exposed to aggresive environments.
The heats of formation of all studied compositions and phases of Ru-Cr
systems are positive, these results suggest that, generally, studied Ru-Cr
phases are not stable. The effect of pressure and doping were investigated on
A15 RuCr3 structure which was reported to exist at a higher temperature.
Elastic constants and moduli were investigated to determine the strength
of the PtCr systems. The strength of PtCr L10 is greater than that of B2
phase. The ratio of shear to bulk modulus (G/B) has been used to predict
the ductility or the brittleness of the material. It was found that Pt3Cr L12
is the most ductile phase among those considered in this study. The density of states were calculated to further analyze the stability of systems.
The magnetic properties of Cr were studied using VASP which predicted an
anti-ferromagnetic and a non-magnetic ground state for pure Cr. We have
investigated the thermal stability at 0 GPa for different phases of Pt3Cr,
PtCr3, PtCr and RuCr3 A15 phase, where we detected the soft modes at
X, G, M and R points of the Brillouin zone from the phonon spectra of
Pt3Cr A15 phase. Pt3Cr L12 and PtCr3 A15 are predicted as dynamically
stable structures. RuCr3 A15 phase was found to be dynamically stable
but thermodynamically unstable. Phonon DOS were studied to observe the
modes of vibration and atoms that contribute to soft modes. Lastly we investigated the thermal expansion of Pt3Cr L12 and A15 phases. / The National Research Foundation,and the South African Gas Turbine Research Program
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Designing Efficient Geometric Search Algorithms Using Persistent Binary-Binary Search TreesINAGAKI, Yasuyoshi, HIRATA, Tomio, TAN, Xuehou 20 April 1994 (has links)
No description available.
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Non-binary compound codes based on single parity-check codes.Ghayoor, Farzad. January 2013 (has links)
Shannon showed that the codes with random-like codeword weight distribution are capable of approaching the channel capacity. However, the random-like property can be achieved only in codes with long-length codewords. On the other hand, the decoding complexity for a random-like codeword increases exponentially with its length. Therefore, code designers are combining shorter and simpler codes in a pseudorandom manner to form longer and more powerful codewords. In this research, a method for designing non-binary compound codes with moderate to high coding rate is proposed. Based on this method, non-binary single parity-check (SPC) codes are considered as component codes and different iterative decoding algorithms for decoding the constructed compound codes are proposed. The soft-input soft-output component decoders, which are employed for the iterative decoding algorithms, are constructed from optimal and sub-optimal a posteriori probability (APP) decoders. However, for non-binary codes, implementing an optimal APP decoder requires a large amount of memory. In order to reduce the memory requirement of the APP decoding algorithm, in the first part of this research, a modified form of the APP decoding algorithm is presented. The amount of memory requirement of this proposed algorithm is significantly less than that of the standard APP decoder. Therefore, the proposed algorithm becomes more practical for decoding non-binary block codes.
The compound codes that are proposed in this research are constructed from combination of non-binary SPC codes. Therefore, as part of this research, the construction and decoding of the non-binary SPC codes, when SPC codes are defined over a finite ring of order q, are presented. The concept of finite rings is more general and it thus includes non-binary SPC codes defined over finite fields. Thereafter, based on production of non-binary SPC codes, a class of non-binary compound codes is proposed that is efficient for controlling both random-error and burst-error patterns and can be used for applications where high coding rate schemes are required. Simulation results show that the performance of the proposed codes is good. Furthermore, the performance of the compound code improves over larger rings. The analytical performance bounds and the minimum distance properties of these product codes are studied. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2013.
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