4 resultados para Generalization of Ehrenfest’s urn Model
em AMS Tesi di Laurea - Alm@DL - Università di Bologna
Resumo:
Le vene giugulari interne sembrano essere la via principale attraverso cui il sangue defluisce dal cervello verso il cuore, quando siamo in posizione supina. Nel 2008 il professor Paolo Zamboni ha scoperto che una diminuzione dell'attività giugulare può portare allo sviluppo di una condizione emodinamica chiamata CCSVI. Questa può causare ipossia, ritardi nella perfusione cerebrale e riduzione del drenaggio dei cataboliti, oltre ad un'attivazione infiammatoria delle piccole vene e dei tessuti vicini. Questa condizione è stata da subito associata alla sclerosi multipla e su questo argomento si sono dibattuti molti gruppi di ricerca. Inoltre, altre patologie sembrano essere associate alla CCSVI, come il morbo di Parkinson, l'Alzheimer e la sindrome di Meniere. Proprio quest'ultima è uno degli argomenti che attualmente interessa di più il gruppo di lavoro in cui mi sono inserita. Questa patologia comporta problemi uditivi, come sordità e tinnito, vertigini e nausea. Il gruppo Vascolar Disease Center (VDC) dell'Università di Ferrara ha previsto per l'anno 2015 uno studio multicentrico, in cui si cercherà di verificare la correlazione tra CCSVI e sindrome di Meniere. La mia tesi fa parte di un studio preliminare a quello multicentrico. All'inizio del lavoro mi sono dedicata ad un'analisi critica di un modello emodinamico per la quantificazione dei flussi sanguigni: il modello BMC, pubblicato nel 2013 dal gruppo VDC, effettuando in parallelo una ricerca bibliografica sullo stato dell'arte in materia. In seguito ho cominciato a studiare off-line diversi studi patologici e fisiologici, in modo da prendere confidenza con gli strumenti e con le metodologie da utilizzare. Sono stata poi coinvolta dal gruppo VDC per partecipare attivamente al miglioramento del protocollo legato al modello BMC. Infine ho analizzato, con due metodologie differenti, 35 studi effettuati su pazienti otorinolaringoiatrici. Con i risultati ottenuti ho potuto effettuare diverse analisi statistiche al fine di verificare l'equivalenza delle due metodologie. L'obiettivo ultimo era quello di stabilire quale delle due fosse la tecnica migliore da utilizzare, successivamente, nello studio multicentrico.
Resumo:
Evolution of the traditional consumer in a power system to a prosumer has posed many problems in the traditional uni-directional grid. This evolution in the grid model has made it important to study the behaviour of microgrids. This thesis deals with the laboratory microgrid setup at the Munich School of Engineering, built to assist researchers in studying microgrids. The model is built in Dymola which is a tool for the OpenModelica language. Models for the different components were derived, suiting the purpose of this study. The equivalent parameters were derived from data sheets and other simulation programs such as PSCAD. The parameters were entered into the model grid and tested at steady state, firstly. This yielded satisfactory results that were similar to the reference results from MATPOWER power flow. Furthermore, fault conditions at several buses were simulated to observe the behaviour of the grid under these conditions. Recommendations for further developing this model to include more detailed models for components, such as power electronic converters, were made at the end of the thesis.
Resumo:
The aim of this dissertation is to present the sequence of events which brought the scientific community of the early 20th century to conceive an expanding Universe born from a single origin. Among the facts here reported, some are well-known, some others instead are little-known backstories, not so easy neither to obtain nor to trust. Indeed, several matters shown in this thesis, now as then, create a battleground among scientists. Amid the numerous personalities whose contributions are discussed in this work, the main protagonist is surely Georges Lemaître, who managed to combine – without overlapping – his being both a priest and a scientist. The first chapter is dedicated to his biography, from his childhood in Belgium, to his early adulthood between England and the USA, to his success in the scientific community. The second and the third chapter explain how the race to the understanding of a Universe which not only expands, but also originated from a singularity, developed. The Belgian priest’s discoveries, as shown, were challenged by other important scientists, who, in several cases, Lemaître had a friendly relationship with. As a consequence, the fourth and final chapter deals with the multiple relations that the priest managed to build, thanks to his politeness and kindness. Moreover, it is also covered Lemaître’s personal connection with the Church and religion, without forgetting the personalities that influenced him – above all, Saint Thomas Aquinas. As a conclusion to this thesis, two appendices gather not only a summary of Lemaître’s works which are not already described in the chapters, but also the biographies of all the characters presented in this dissertation.
Resumo:
The aim of the present thesis was to investigate the influence of lower-limb joint models on musculoskeletal model predictions during gait. We started our analysis by using a baseline model, i.e., the state-of-the-art lower-limb model (spherical joint at the hip and hinge joints at the knee and ankle) created from MRI of a healthy subject in the Medical Technology Laboratory of the Rizzoli Orthopaedic Institute. We varied the models of knee and ankle joints, including: knee- and ankle joints with mean instantaneous axis of rotation, universal joint at the ankle, scaled-generic-derived planar knee, subject-specific planar knee model, subject-specific planar ankle model, spherical knee, spherical ankle. The joint model combinations corresponding to 10 musculoskeletal models were implemented into a typical inverse dynamics problem, including inverse kinematics, inverse dynamics, static optimization and joint reaction analysis algorithms solved using the OpenSim software to calculate joint angles, joint moments, muscle forces and activations, joint reaction forces during 5 walking trials. The predicted muscle activations were qualitatively compared to experimental EMG, to evaluate the accuracy of model predictions. Planar joint at the knee, universal joint at the ankle and spherical joints at the knee and at the ankle produced appreciable variations in model predictions during gait trials. The planar knee joint model reduced the discrepancy between the predicted activation of the Rectus Femoris and the EMG (with respect to the baseline model), and the reduced peak knee reaction force was considered more accurate. The use of the universal joint, with the introduction of the subtalar joint, worsened the muscle activation agreement with the EMG, and increased ankle and knee reaction forces were predicted. The spherical joints, in particular at the knee, worsened the muscle activation agreement with the EMG. A substantial increase of joint reaction forces at all joints was predicted despite of the good agreement in joint kinematics with those of the baseline model. The introduction of the universal joint had a negative effect on the model predictions. The cause of this discrepancy is likely to be found in the definition of the subtalar joint and thus, in the particular subject’s anthropometry, used to create the model and define the joint pose. We concluded that the implementation of complex joint models do not have marked effects on the joint reaction forces during gait. Computed results were similar in magnitude and in pattern to those reported in literature. Nonetheless, the introduction of planar joint model at the knee had positive effect upon the predictions, while the use of spherical joint at the knee and/or at the ankle is absolutely unadvisable, because it predicted unrealistic joint reaction forces.
