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Kaikaku: Ett digitalt tentamensstatistikssystem : Utveckling av en mobilapplikation och webbsida för QR-kodsskanning samt presentation av tentamensstatistik / Kaikaku: A Digital Exam Statistics System : Development of a mobile application and website for QR code scanning and the presentation of exam statisticsPersson, Martin, Rimmerfors, Arvid January 2024 (has links)
I dagsläget hanteras papperstentamina manuellt på Karlstads universitet. Detta system är inte effektivt; det bildas köer vid ankomst \& inlämning och inlämningstidsstatistik är svår att ta vara på. Hade denna statistik funnits till lärares och administratörer hade de enklare kunnat bedöma tentaminas tidsåtgång. Lärare skulle kunna sätta en kortare skrivtid på många tentamina och fler tentamina schemaläggas av tentamensavdelningen. Trycket på skrivsalar är mycket stort idag och att schemalägga tentamina kan vara en stor utmaning. Målen med detta projektarbete var främst att skapa ett digitalt system som samlar och presenterar statistik kring inlämningstider för kursansvariga, och sekundärt att försöka effektivisera den generella studenthanteringen vid salstentamina. Planen var att skapa en mobilapplikation som skannar QR-koder på tentaminas försättsblad, och en webbsida som presenterar denna statistik. I denna uppsats diskuteras och utvärderas resultatet av en sådan lösning. Det system vi har utvecklat blev klart, men kunde inte driftsättas på Karlstads universitetet då vi inte fick åtkomst till existerande system som Ladok. Vi fick inte heller möjligheten att testa och därmed utvärdera systemet vid ett riktigt provtillfälle. / Pen-and-paper examinations are currently managed manually at Karlstad University. This system is not efficient; queues form during arrivals and submissions, and submission time statistics are difficult to make use of. If these statistics were to be made available to teachers and administrators, they would be able to more easily assess the time requirements for exams. Consequently, teachers would be able to allocate shorter writing times for many exams, and administrators thus schedule more of them. The pressure on exam halls is substantial today, and scheduling exams can be a challenge. The goal of this project was to create a digital system which gathers and presents statistics regarding submission times. The plan was to create a mobile application which scans QR codes found on exam cover sheets, and a website which presents these statistics. In this thesis, the results of such a solution are discussed and evaluated. The system we developed was completed, but was unable to be deployed in production at Karlstad University as we did not get access to any existing systems, such as Ladok. Futhermore, we were not given the opportunity to test and thus evaluate the system at an exam session.
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Hysteresis and Pattern Formation in Electronic Phase Transitions in Quantum MaterialsSayan Basak (9674882) 10 December 2020 (has links)
<div>We propose an order parameter theory of the quantum Hall nematic in high fractional Landau levels in terms of an Ising description. This new model solves a couple of extant problems in the literature: (1) The low-temperature behavior of the measured resistivity anisotropy is captured better by our model than previous theoretical treatments based on the electron nematic having XY symmetry. (2) Our model allows for the development of true long-range order at low temperature, consistent with the observation of anisotropic low-temperature transport.<br></div><div><div> We furthermore propose new experimental tests based on hysteresis that can distinguish whether any two-dimensional electron nematic is in the XY universality class (as previously proposed in high fractional Landau levels), or in the Ising universality class (as we propose). Given the growing interest in electron nematics in many materials, we expect our proposed test of universality class to be of broad interest.</div><div> </div><div> Whereas the XY model in two dimensions does not have a long-range ordered phase, the addition of uniaxial random field disorder induces a long-range ordered phase in which the spontaneous magnetization points perpendicular to the random field direction, via an order-by-disorder transition. We have shown that this spontaneous magnetization is robust against a rotating driving field, up to a critical driving field amplitude. Thus we have found evidence for a new non-equilibrium phase transition that was unknown before in this model. Moreover, we have discovered an incredible anomaly at this nonequilibrium phase transition: the critical region is accompanied by a cascade of period multiplication events. This physics is reminiscent of the period bifurcation cascade signaling the transition to chaos in nonlinear systems, and of the approach to the irreversibility transition in models of yield in amorphous solids~\cite{reichhardt-dahmen,leishangthem_yielding_2017}. This period multiplication cascade is surprising to be present in a statistical mechanics model, and suggests that the non-equilibrium transition as a function of driving field amplitude is part of a larger class of transitions in dynamical systems.</div><div> Moreover, we show that this multi-period behavior represents a new emergent classical discrete time-crystal, since the new period is robust against changes to initial conditions and low-temperature fluctuations over hundreds of driving period cycles.</div><div><br></div><div> We expect this work to be of broad interest, further encouraging cross-fertilization between the rapidly growing field of time-crystals with the well-established fields of nonequilibrium phase transitions and dynamical systems.</div><div> </div><div> Geometrical configurations gave us a better understanding of the multi-period behavior of the limit-cycles.</div><div> Moreover, surface probes are continually evolving and generating vast amounts of spatially resolved data of quantum materials, which reveal a lot of detail about the microscopic and macroscopic properties of the system. <br></div><div> Materials undergoing a transition between two distinct states, phase separate.</div><div> These phase-separated regions form intricate patterns on the observable surface, which can encode model-specific information, including interaction, dimensionality, and disorder. </div><div> While there are rigorous methods for understanding these patterns, they turn out to be time-consuming as well as requiring expertise. </div><div> We show that a well-tuned machine learning framework can decipher this information with minimal effort from the user.</div><div> We expect this to be widely used by the scientific community to fast-track comprehension of the underlying physics in these materials.</div><div><br></div></div>
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La migration de retour de la population italienne immigrée au Canada et en BelgiqueGhio, Daniela January 2009 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.
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La migration de retour de la population italienne immigrée au Canada et en BelgiqueGhio, Daniela January 2009 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal
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