Global ETD Search

751	Investigation the Effect of Tribological Coatings: WC/a-C:H and Black Oxide on Micropitting Behavior of SAE52100 Bearing Steel Mahmoudi, Behzad January 2015 (has links) No description available. Aerospace Engineering Aerospace Materials Materials Science Mechanical Engineering
752	Sweat Stones Grammer, Daniel 01 January 2016 (has links) (PDF) Sweat Stones is a story collection and a novel excerpt. All of its parts are set in the American South, and are concerned with the intersection between class and geography. The majority of the characters are a part of underrepresented portions of their local population—they are trapped within cycles of poverty, in turns longing for escape and wearing their mixed brands of anguish like badges. The longer stories have firm roots in Realism, while the shorter ones, which serve as breaks between the collection’s major sections, are tinged with degrees of Absurdism or Magical Realism. Through these stories I hope to have translated what can be translated about a place—its rhythms and personalities, the images and logics that distinguish it from anywhere else. It’s a kind of language-made hallucination. As the characters buckle under the weight of their rigors, their stories push against the limits of plausibility. Most share these stylistic concerns, especially those written in first-person. But even when the voice and tone shift into what seems like a different narrative realm, what holds them together are the dire situations of the characters. A poor family suffers the death of a child and the father has to leave them for work. A marginalized group of stage riggers use up all of their energy for nothing. A man feeds into his self-loathing as a series of capricious relationships unravel. Sweat Stones, which takes its name from the flat slates that heat the contemplative atmosphere of a sweat lodge, is a reflection on the mutual burdens borne of laborious life. It’s a gesture of solidarity for a particular kind of struggle, in which I have participated in one form or another. Along the way I met the people, grew up around the places that would become the subjects of this fiction. Southern Poverty Class Nature Flash Fiction American Literature Fiction Folklore Literature in English, North America Modern Literature Other Arts and Humanities Place and Environment Rural Sociology
753	Beam monitoring and dosimetry for ultra-high dose rate radiobiology at laser-driven proton sources Reimold, Marvin 11 April 2024 (has links) Ultra-high dose rate proton radiation has the potential to improve cancer treatment by reducing the normal tissue complication probability and, at the same time, reaching the tumor control probability known from conventional photon radiation therapy. Here, the ultra-high dose rate leads to normal tissue sparing via the FLASH effect. Before a clinical implementation is possible, the proton FLASH effect requires translational research via in-vivo irradiation studies with small animals. Laser plasma-based accelerators (LPAs) for protons offer unique opportunities for studying the proton FLASH effect, since the proton dose rate at LAPs is in the order of 10^9 Gy/s, which is unreached at conventional medical proton accelerators. Different to medical proton accelerators, LPAs are operated in a pulsed mode and feature a lower beam stability caused by inherent pulse-to-pulse fluctuations of the acceleration process. To ensure successful in-vivo irradiation studies, advanced beam delivery, monitoring and dosimetry concepts for an online-monitored application of the 3D dose distribution in the target volume (TV) of the in-vivo sample are needed. The detectors and dosimetric concept developed in this thesis enable the world wide frst pilot radiobiological in-vivo study with LPA protons, where mouse ear tumors are irradiated with ultra-high dose rate proton pulses. For performing the radiobiological study, the ALBUS-2S (Advanced Laser-driven Beamlines for User-specifc Studies - 2 Solenoids) beamline is used, which is installed at the compact petawatt (PW) laser system DRACO (Dresden laser acceleration source) at HZDR (Helmholtz-Zentrum Dresden-Rossendorf). In this thesis, a scintillator-based time-of-fight (ToF) beam monitoring sytem (BMS) is developed, which records single-pulse proton energy spectra in transmission at the ALBUS-2S beamline. A relative energy uncertainty of 5.5 % (1σ) is reached for the ToF BMS, allowing for a Monte Carlo simulation-based prediction of depth dose profiles at the irradiation site. The ToF BMS is used for characterization of the ALBUS-2S LPA beamline for application-oriented parameters, in order to qualify the LPA proton source for radiobiological in-vivo studies. Furthermore, a dosimetry and beam monitoring concept for in-vivo irradiations of small target volumes with LPA protons is presented in this thesis. With the overall relative dose uncertainty of 7.4 % (2σ) for the specifc mouse ear tumor irradiation scenario, the concept enables verifcation of accurate volumetric dose delivery to the mm-scale TVs. In addition, tomography-based approaches with scintillators are investigated as detectors for online 3D dose measurement at LPAs. The miniature scintillator dosimeter (miniSCIDOM) detector, which is developed in the scope of this thesis, is used for online 3D dose measurements in 1 cm^3 volumes with < 1 mm^3 resolution at the irradiation site of the ALBUS-2S beamline. For online 3D dose measurements directly behind the LPA proton source of the DRACO PW laser system, the optical cone beam tomograph for proton online dosimetry (OCTOPOD) detector is developed. The OCTOPOD detector has a sensitive volume of 5 cm-diameter and water equivalent thickness of 4.3 cm, which is sufficient to stop 70 MeV protons. It is designed to reach a spatial resolution of 1 mm^3. The detectors developed in this thesis are optimized tools for source-to-sample characterization of LPA beamlines and hence are an essential contribution for radiobiological in-vivo studies with LPA protons. info:eu-repo/classification/ddc/530 ddc:530
754	Continuous flash extraction of alcohols from fermentation broth Teye, Frederick David 30 March 2009 (has links) A new method of in situ extraction of alcohols from fermentation broth was investigated. The extraction method exploited the latent advantages of the non-equilibrium phase interaction of the fluid system in the flash tank to effectively recover the alcohol. Carbon dioxide gas ranging from 4.2L/min to 12.6L/min was used to continuously strip 2 and 12% (v/v) ethanol solution in a fermentor with a recycle. Ethanol and water in the stripped gas was recovered by compressing and then flashing into a flash tank that was maintained at 5 to 70bar and 5 to 55oC where two immiscible phases comprising CO2-rich phase (top layer) and H2O-rich phase (bottom layer) were formed. The H2O-rich bottom layer was collected as the Bottoms. The CO2-rich phase was continuously throttled producing a condensate (Tops) as a result of the Joule-Thompson cooling effect. The total ethanol recovered from the extraction scheme was 46.0 to 80% for the fermentor containing 2% (v/v) ethanol and 57 to 89% for the fermentor containing 12% (v/v) ethanol. The concentration of ethanol in the Bottoms ranged from 8.0 to 14.9 %(v/v) for the extraction from the 2 %(v/v) ethanol solution and 40.0 to 53.8 %(v/v) for the 12% (v/v) fermentor ethanol extraction. The Bottoms concentration showed a fourfold increase compared to the feed. The ethanol concentration of the Tops were much higher with the highest at approx. 90% (v/v) ethanol, however the yields were extremely low. Compression work required ranged from 6.4 to 20.1 MJ/kg ethanol recovered from the gas stream in the case of 12% (v/v) ethanol in fermentor. The energy requirement for the 2% (v/v) extraction was 84MJ/kg recovered ethanol. The measured Joule-Thompson cooling effect for the extraction scheme was in the range of 10 to 20% the work of compressing the gas. The lowest measured throttle valve temperature was -47oC at the flash tank conditions of 70bar and 25oC. Optimization of the extraction scheme showed that increasing the temperature of the flash tank reduced the amount of ethanol recovered. Increasing the pressure of the flash tank increased the total ethanol recovered but beyond 45bar it appeared to reduce the yield. The 12.6L/min carbon dioxide flow rate favored the high pressure(70bar) extraction whiles 4.2L/min appeared to favor the low pressure(40bar) extraction. The studies showed that the extraction method could potentially be used to recover ethanol and other fermentation products. / Master of Science saturation temperature equilibrium Flashing Bottoms Tops critical pressure gas partition Joule-Thompson coefficient critical temperature isothermal flash tank throttling saturation pressure
755	Encapsulation of pesticides in organic nanocarriers via Flash NanoPrecipitation (FNP) for foliar delivery to plants Luiza Stolte Bezerra Lisboa Ol (20347179) 29 November 2024 (has links) <p dir="ltr">Flash Nanoprecipitation (FNP) is a technique that allows organic nanocarriers (NCs) with core-shell architecture to be prepared reproducibly and at scale. The surface shell may be designed independently of the content in the core. This can allow for encapsulated active ingredients to be delivered to areas of the plant where they naturally would not move to but are needed, the biodistribution becoming a function of NC properties and release of active from the NC. The scalability of FNP is also attractive, since large scale production is ultimately required for commercialization of novel agrochemical solutions. In Chapter 3 scalable NCs encapsulating streptomycin (STP) have been prepared at high encapsulation efficiency (EE) and with controlled release of the antibiotic (< 5%). A surface-similar NC has been shown to translocate (~ 6%) to the roots of citrus trees under controlled conditions after foliar spraying. In vitro efficacy suggests that, if enough NCs containing STP are able to reach the phloem sections of trees where CLas resides at sufficient concentrations under field conditions, then this novel formulation may be able to offer an effective solution for managing the disease. Chapter 4 highlights the challenges in encapsulating weakly hydrophobic fungicides via FNP, the strategies that were employed to module fungicide solubility, and initial quantitative efforts to determine fungicide EE in a reliable and accurate manner. Even without full knowledge about the form in which a particular fungicide, mefentrifluconazole (MFZ), was present in the NCs that were applied to turfgrass during a greenhouse biodistribution test, the novel formulation provided higher MFZ recovery in the lower roots than the conventional treatment 7 days after application. It also presented sustained higher recovery of MFZ on the blades for up to 3 days and after blade clipping at 14 days. These results may indicate that MFZ was present in the vasculature.</p> Nanomaterials Nanoscale characterisation Flash NanoPrecipitation technique nanocarrier delivery vehicle agrochemical formulation development streptomycin sulfate Mefentrifluconazole biodistribution profiling release profile experiments
756	Characterization and Helicopter Flight Test of 3-D Imaging Flash LIDAR Technology for Safe, Autonomous, and Precise Planetary Landing Roback, Vincent Eric 17 September 2012 (has links) Two flash lidars, integrated from a number of cutting-edge components from industry and NASA, are lab characterized and flight tested under the Autonomous Landing and Hazard Avoidance (ALHAT) project (in its fourth development and field test cycle) which is seeking to develop a guidance, navigation, and control (GNC) and sensing system based on lidar technology capable of enabling safe, precise human-crewed or robotic landings in challenging terrain on planetary bodies under any ambient lighting conditions. The flash lidars incorporate pioneering 3-D imaging cameras based on Indium-Gallium-Arsenide Avalanche Photo Diode (InGaAs APD) and novel micro-electronic technology for a 128 x 128 pixel array operating at 30 Hz, high pulse-energy 1.06 ?m Nd:YAG lasers, and high performance transmitter and receiver fixed and zoom optics. The two flash lidars are characterized on the NASA-Langley Research Center (LaRC) Sensor Test Range, integrated with other portions of the ALHAT GNC system from around the country into an instrument pod at NASA-JPL, integrated onto an Erickson Aircrane Helicopter at NASA-Dryden, and flight tested at the Edwards AFB Rogers dry lakebed over a field of human-made geometric hazards. Results show that the maximum operational range goal of 1000m is met and exceeded up to a value of 1200m, that the range precision goal of 8 cm is marginally met, and that the transmitter zoom optics divergence needs to be extended another eight degrees to meet the zoom goal 6° to 24°. Several hazards are imaged at medium ranges to provide three-dimensional Digital Elevation Map (DEM) information. / Master of Science Precision Landing Safe Landing 3-D Imaging Flash Lidar Laser Remote Sensing Hazard Detection ALHAT Flight Test Planetary Landing Lunar Landing
757	Fotorreactividad de gefitinib y sus metabolitos fenólicos en disolución y en proteínas transportadoras. Tamarit Mayo, Lorena 13 May 2024 (has links) [ES] Los inhibidores de la tirosina quinasa (TKIs) son fármacos anticancerígenos que actúan atacando selectivamente a las células cancerosas, inhibiendo su crecimiento descontrolado y, por tanto, la consiguiente aparición de tumores. Sin embargo, muchos TKIs presentan un cromóforo en su estructura que les permite interaccionar con luz solar y, consecuentemente, pueden generar reacciones de fotosensibilización. A pesar de ello, existen pocos estudios sobre el mecanismo de reacción asociado a estos eventos. En este sentido, conocer la fotorreactividad de un fármaco en medio biológico es clave para entender dichos mecanismos y correlacionar el comportamiento fotofísico del fármaco con el daño fotobiológico que genera. La espectroscopía de fluorescencia y de absorción transitoria son técnicas altamente sensibles que permiten estudiar las especies transitorias generadas tras la absorción de luz por parte de un fármaco, las cuales podrían ser las responsables de las reacciones de fotosensibilización inducidas por éste. Habiendo estudiado recientemente la foto(geno)toxicidad asociada al TKI gefitinib (GFT) y a sus principales metabolitos fenólicos (GFT-M1 y GFT-M2), se ha llevado a cabo un estudio completo de la fotorreactividad de éstos tanto en disolución orgánica, utilizando disolventes de distintas polaridades, como en medio biológico, utilizando las proteínas transportadoras de origen humano albúmina sérica (HSA) y ¿1-glicoproteína ácida (HAG). Para ello, se han utilizado las técnicas espectroscópicas de absorción, fluorescencia y absorción transitoria, entre otras. Adicionalmente, se han llevado a cabo estudios teóricos de modelización molecular para investigar la unión ligando@proteína, así como las interacciones que tienen lugar en el complejo supramolecular tras la absorción de luz UV-A. Con este trabajo, se ha conseguido establecer una buena correlación entre el comportamiento fotofísico observado para gefitinib y sus dos metabolitos fenólicos con su potencial fototóxico. / [CA] Els inhibidors de la tirosina quinasa (TKIs) són fàrmacs anticancerígens que actuen atacant selectivament a les cèl·lules canceroses, inhibint el seu creixement descontrolat i, per tant, la consegüent aparició de tumors. No obstant això, molts TKIs presenten un cromòfor en la seua estructura que els permet interaccionar amb llum solar i, conseqüentment, poden generar reaccions de fotosensibilització. Malgrat això, existixen pocs estudis sobre el mecanisme de reacció associat a estos esdeveniments. En este sentit, conéixer la fotorreactivitat d'un fàrmac al mig biològic és clau per a entendre estos mecanismes i correlacionar el comportament fotofísic del fàrmac amb el dany fotobiològic que genera. La espectroscopia de fluorescència i d'absorció transitòria són tècniques altament sensibles que permeten estudiar les espècies transitòries generades després de l'absorció de llum per part d'un fàrmac, les quals podrien ser les responsables de les reaccions de fotosensibilització induïdes per aquest. Havent estudiat recentment la foto(geno)toxicitat associada al TKI gefitinib (GFT) i d'els seus principals metabòlits fenòlics (GFT-M1 i GFT-M2), s'ha dut a terme un estudi complet de la fotorreactivitat d'estos tant en dissolució orgànica, utilitzant dissolvents de diferents polaritats, com al mig biològic, utilitzant les proteïnes transportadores d'origen humà albúmina sèrica (HSA) i ¿1-glicoproteïna àcida (HAG). Per a això, s'han utilitzat les tècniques espectroscòpiques d'absorció, fluorescència i absorció transitòria, entre altres. Addicionalment, s'han dut a terme estudis teòrics de modelització molecular per a investigar la unió lligant@proteína, així com les interaccions que tenen lloc en el complex supramolecular després de l'absorció de llum UV-A. Amb este treball, s'ha aconseguit establir una bona correlació entre el comportament fotofísic observat per a gefitinib i els seu dos metabòlits fenòlics amb el seu potencial fototòxic. / [EN] Tyrosine kinase inhibitors (TKIs) are anticancer drugs that target cancer cells, inhibiting their uncontrolled growth and thus the subsequent development of tumours. However, many TKIs contain a chromophore in their structure that allows them to interact with sunlight and, consequently, to induce photosensitivity reactions. Despite this, there are few studies on the reaction mechanism associated with these events. In this regard, a better understanding on the photoreactivity of a drug in a biological environment is key to correlate the photophysical behaviour of the drug with the photoinduced damage it can induce to biomolecules. Fluorescence and transient absorption spectroscopies are very sensitive techniques that allow the study of the transient species generated after drug excitation, which could be responsible for drug-induced photosensitivity reactions. Having recently studied the photo(geno)toxicity associated with the TKI gefitinib (GFT) and its main phenolic metabolites (GFT-M1 and GFT-M2), a complete study of their photoreactivity has been carried out both in organic medium, using solvents of different polarities, and in a biological environment, using transport proteins such as human serum albumin (HSA) and human ¿1-acid glycoprotein (HAG). For this purpose, absorption, fluorescence and transient absorption techniques, among others, have been used. In addition, molecular dynamics simulation studies have been carried out to investigate the ligand@protein binding, as well as the interactions arising in the supramolecular complex after absorption of UV-A light. Therefore, a good correlation between the photophysical behaviour of gefitinib and its two phenolic metabolites and their phototoxic potential has been established in this research work. / Tamarit Mayo, L. (2024). Fotorreactividad de gefitinib y sus metabolitos fenólicos en disolución y en proteínas transportadoras [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/204145 Metabolites Fluorescence Femtosecond-scale transient absorption Laser flash photolysis Carrier proteins Gefitinib Metabolitos Fluorescencia Fotólisis de destello láser Proteínas transportadoras QUIMICA ORGANICA
758	Hyperdoping Si with deep-level impurities by ion implantation and sub-second annealing Liu, Fang 11 October 2018 (has links) Intermediate band (IB) materials have attracted considerable research interest since they can dramatically enhance the near infrared light absorption and lead to applications in the fields of so-called intermediate band solar cells or infrared photodetectors. Hyperdoping Si with deep level impurities is one of the most effective approaches to form an IB inside Si. In this thesis, titanium (Ti) or chalcogen doped Si with concentrations far exceeding the Mott transition limits (~ 5×10^19 cm-3 for Ti) are fabricated by ion implantation followed by pulsed laser annealing (PLA) or flash lamp annealing (FLA). The structural and electrical properties of the implanted layer are investigated by channeling Rutherford backscattering spectrometry (cRBS) and Hall measurements. For Si supersaturated with Ti, it is shown that Ti-implanted Si after liquid phase epitaxy shows cellular breakdown at high doping concentrations during the rapid solidification, preventing Ti incorporation into Si matrix. However, the out-diffusion and the cellular breakdown can be effectively suppressed by solid phase epitaxy during FLA, leading to a much higher Ti incorporation. In addition, the formed microstructure of cellular breakdown also complicates the interpretation of the electrical properties. After FLA, the samples remain insulating even with the highest Ti implantation fluence, whereas the sheet resistance decreases with increasing Ti concentration after PLA. According to the results from conductive atomic force microscopy (C-AFM), the decrease of the sheet resistance after PLA is attributed to the percolation of Ti-rich cellular walls, but not to the insulator-to-metal transition due to Ti-doping. Se-hyperdoped Si samples with different Se concentrations are fabricated by ion implantation followed by FLA. The study of the structural properties of the implanted layer reveals that most Se atoms are located at substitutional lattice sites. Temperature-dependent sheet resistance shows that the insulator-to-metal transition occurs at a Se peak concentration of around 6.3 × 10^20 cm-3, proving the formation of an IB in host semiconductors. The correlation between the structural and electrical properties under different annealing processes is also investigated. The results indicate that the degrees of crystalline lattice recovery of the implanted layers and the Se substitutional fraction depend on pulse duration and energy density of the flash. The sample annealed at short pulse durations (1.3 ms) shows better conductivity than long pulse durations (20 ms). The electrical properties of the hyperdoped layers can be well-correlated to the structural properties resulting from different annealing processes.:Chapter 1 Introduction 1 1.1 Shallow and Deep level impurities in semiconductors 1 1.2 Challenges for hyperdoping semiconductors with deep level Impurities 2 1.3 Solid vs. liquid phase epitaxy 5 1.4 Previous work 7 1.4.1 Transition metal in Si 7 1.4.2 Chalcogens in Si 10 1.5 The organization of this thesis 15 Chapter 2 Experimental methods 18 2.1 Ion implantation 18 2.1.1 Basic principle of ion implantation 18 2.1.2 Ion implantation equipment 19 2.1.3 Energy loss 20 2.2 Pulsed laser annealing (PLA) 23 2.3 Flash lamp annealing (FLA) 24 2.4 Rutherford backscattering and channeling spectrometry (RBS/C) 27 2.4.1 Basic principles 27 2.4.2 Analysis of the elements in the target 28 2.4.3 Channeling and RBS/C 29 2.4.4 Analysis of the impurity lattice location 31 2.5 Hall measurements 31 2.5.1 Sample preparation 32 2.5.2 Resistivity 32 2.5.3 Hall measurements 33 Chapter 3 Suppressing the cellular breakdown in silicon supersaturated with titanium 34 3.1 Introduction 34 3.2 Experimental 35 3.3 Results 36 3.4 Conclusions 42 Chapter 4 Titanium-implanted silicon: does the insulator-to-metal transition really happen? 44 4.1 Introduction 44 4.2 Experimental section 45 4.3 Results 47 4.3.1 Recrystallization of Ti-implanted Si 47 4.3.2 Lattice location of Ti impurities 48 4.3.3 Electrical conduction 50 4.3.4 Surface morphology 52 4.3.5 Spatially resolved conduction 53 4.4 Discussion 55 4.5 Conclusion 56 Chapter 5 Realizing the insulator-to-metal transition in Se hyperdoped Si via non-equilibrium material processing 57 5.1 Introduction 57 5.2 Experimental 59 5.3 Results 60 5.4 Conclusions 65 Chapter 6 Structural and electrical properties of Se-hyperdoped Si via ion implantation and flash lamp annealing 67 6.1 Introduction 67 6.2 Experimental 68 6.3 Results 69 6.4 Conclusions 76 Chapter 7 Summary and outlook 78 7.1 Summary 78 7.2 Outlook 81 References 83 Publications 89 info:eu-repo/classification/ddc/530 ddc:530
759	Caractérisation et modélisation des mémoires Flash embarquées destinées aux applications faible consommation et à forte contrainte de fiabilité. / Characterization and modeling of embedded Flash memories for low power and high reliability applications Just, Guillaume 24 May 2013 (has links) De nombreuses applications industrielles spécifiques dans les secteurs tels que l'automobile, le médical et le spatial, requièrent un très haut niveau de fiabilité. Ce type d'applications fonctionnant sous des contraintes sévères (haute température, corrosion, vibration, radiations,…) impose aux industriels des spécifications particulières en termes de fiabilité et de consommation d'énergie. Dans ce contexte, les travaux menés ont pour objectif d'étudier la fiabilité des mémoires Flash embarquées pour des applications faible consommation et à forte contrainte de fiabilité. Après une introduction orientée sur les deux volets d'étude que sont la caractérisation électrique et le test de mémoires non volatiles, un modèle physique capable de modéliser le courant de SILC a été développé. Cet outil permet de répondre à la problématique de perturbations en lecture (read disturb) et donne aux designers et technologues un moyen d'estimer le taux de défaillance de cellules mémoires en fonction de paramètres physiques, géométriques et électriques ainsi que des moyens d'action afin de minimiser ce phénomène indésirable. La fiabilité (oxyde tunnel, endurance) et les performances (consommation énergétique) de la cellule Flash sont ensuite étudiées en explorant les variations de paramètres du procédé de fabrication et des conditions électriques de fonctionnement. Enfin, une étude originale menée en temps réel sur plus de 15 mois est consacrée à la fiabilité en rétention des mémoires Flash soumises aux effets des particules radiatives présentes dans l'environnement naturel terrestre. / Many specific applications used in automotive, medical and spatial activity domains, require a very high level of reliability. These kinds of applications, working under severe constraints (high temperature, corrosion, vibration, radiations…) challenge memory manufacturers and impose them particular specifications in terms of reliability and energy consumption. In this context, work presented in this thesis aim at studying embedded Flash memories reliability for low power and high reliability applications. After an introduction oriented on areas of electrical characterizations and Test of non-volatile memories, a physical model of SILC leakage current is developed. This tool is used to answer to disturbs problematic and gives to designers and technologists a way to estimate the failure rate of memory cells according to physical, geometrical and electrical parameters, giving leads to minimize this unwanted phenomenon. Reliability (tunnel oxide, cell endurance) and performances (energy consumption) of Flash memory cell are then studied exploring process parameters variations and electrical conditions optimizations. Finally, an original real-time experiment over more than 15 months is focused on Flash memories retention reliability due to irradiative particles effects of natural terrestrial environment. Mémoires non volatiles Flash Fiabilité Perturbation en lecture (read-disturb) Modélisation SILC Consommation énergétique Variation process Particules radiatives Non-Volatile Memories Flash memories Reliability Read-disturb issues Modeling SILC Energy consumption Process variations Irradiative particles Soft-Error Rate (SER)
760	Une approche computationnelle de la dépendance au mouvement du codage de la position dans la système visuel / Motion-based position coding in the visual system : a computational study Aliakbari khoei, Mina 06 October 2014 (has links) Cette thèse est centralisée sur cette question : comment est-ce que le système visuel peut coder efficacement la position des objets en mouvement, en dépit des diverses sources d'incertitude ? Cette étude déploie une hypothèse sur la connaissance a priori de la cohérence temporelle du mouvement (Burgi et al 2000; Yuille and Grzywacz 1989). Nous avons ici étendu le cadre de modélisation précédemment proposé pour expliquer le problème de l'ouverture (Perrinet and Masson, 2012). C'est un cadre d'estimation de mouvement Bayésien mis en oeuvre par un filtrage particulaire, que l'on appelle la prévision basé sur le mouvement (MBP). Sur cette base, nous avons introduit une théorie du codage de position basée sur le mouvement, et étudié comment les mécanismes neuronaux codant la position instantanée de l'objet en mouvement pourraient être affectés par le signal de mouvement le long d'une trajectoire. Les résultats de cette thèse suggèrent que le codage de la position basé sur le mouvement peut constituer un calcul neuronal générique parmi toutes les étapes du système visuel. Cela peut en partie compenser les effets cumulatifs des délais neuronaux dans le codage de la position. En outre, il peut expliquer des changements de position basés sur le mouvement, comme par example, l'Effect de Saut de Flash. Comme un cas particulier, nous avons introduit le modèle de MBP diagonal et avons reproduit la réponse anticipée de populations de neurones dans l'aire cortical V1. Nos résultats indiquent qu'un codage en position efficace et robuste peut être fortement dépendant de l'intégration le long de la trajectoire. / Coding the position of moving objects is an essential ability of the visual system in fulfilling precise and robust tracking tasks. This thesis is focalized upon this question: How does the visual system efficiently encode the position of moving objects, despite various sources of uncertainty? This study deploys the hypothesis that the visual systems uses prior knowledge on the temporal coherency of motion (Burgi et al 2000; Yuille and Grzywacz 1989). We implemented this prior by extending the modeling framework previously proposed to explain the aperture problem (Perrinet and Masson, 2012), so-called motion-based prediction (MBP). This model is a Bayesian motion estimation framework implemented by particle filtering. Based on that, we have introduced a theory on motion-based position coding, to investigate how neural mechanisms encoding the instantaneous position of moving objects might be affected by motion. Results of this thesis suggest that motion-based position coding might be a generic neural computation among all stages of the visual system. This mechanism might partially compensate the accumulative and restrictive effects of neural delays in position coding. Also it may account for motion-based position shifts as the flash lag effect. As a specific case, results of diagonal MBP model reproduced the anticipatory response of neural populations in the primary visual cortex of macaque monkey. Our results imply that an efficient and robust position coding might be highly dependent on trajectory integration and that it constitutes a key neural signature to study the more general problem of predictive coding in sensory areas. Cohérence de trajectoire Modèle Bayésien Filtre particulaire Codage prédictif Délais neuronaux Effet de Saut de Flash Motion-Based Position Coding Probabilistic Representation Of Motion Motion Coherency Bayesian Model Predictive Coding Motion Extrapolation Motion Anticipation Neural Delays Motion-Based Position Shifts Flash Lag Effect 612

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