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Mise au point d’une chaîne de capture/ restitution stéréoscopique d’images couleurs : application à la conception d’interfaces adaptées aux déficients visuels / Development of a capturing / rendering chain of stereoscopic color images : Application to the design of interfaces adapted to the Visually impairedBenkhaled, Imad 23 November 2018 (has links)
Les travaux de cette thèse sont menés dans le cadre d’un projet porté par le centre de recherche LGI2P, (IMT Mines Ales). L’objectif final de ce projet vise à permettre le retour à l’emploi et à améliorer le quotidien des personnes malvoyantes atteintes de rétinite pigmentaire et de glaucome. Le dispositif final est conçu pour aider les personnes dans leurs activités en mobilité : détection d’obstacles, recherche d’indices visuels, en adressant les problèmes liés à l’éblouissement et à l’héméralopie dont souffrent ces utilisateurs potentiels.La contribution de cette thèse au projet se situe sur plusieurs plans. Tout d’abord, il était demandé de définir les paramètres caractérisant la vision résiduelle de chaque utilisateur. En effet, chaque patient a ses propres conditions de confort lumineux, qui dépendent en particulier de l’état d’avancement de sa pathologie : à chaque étape de l’évolution de leur maladie, les patients ont des limites spécifiques de luminosité minimale en dessous de laquelle ils ne perçoivent plus les détails dans une scène, et aussi de la luminosité maximale au-dessus de laquelle ils ressentent gêne et douleur. La définition de ces limitations en luminosité va permettre de paramétrer le dispositif et l’adapter à chaque utilisateur. Mais il n’existe pas de méthode pour mesurer ces niveaux de luminance limite. Nous avons donc participé à la conception et au développement de tests dédiés, et à la réalisation d’essais sur des sujets déficients visuels, dans le cadre d’un essai clinique piloté par le CHU de Nîmes et l’ARAMAV (institut spécialisé dans la rééducation fonctionnelle basse vision), pour l’aspect médical. Nous avons également proposé un nouveau test pour mesurer la sensibilité au contraste chromatique, toujours dans le but de mieux adapter les images affichées à la vision des utilisateurs.Nous avons ensuite travaillé sur la mise au point d’un prototype du dispositif (caméras et visiocasque de réalité virtuelle). Pour cela, nous avons dû choisir les équipements de capture et d’affichage d’images. Un travail de calibration colorimétrique sur ces équipements nous permet de relier grandeurs numériques (code RGB) et grandeurs physiques (luminance et chrominance). Cette étape est nécessaire pour réaliser les tests précités dans des conditions physiquement connues. Elle nous permet également de définir les caractéristiques physiques que devront posséder les équipements qui seront choisis pour réaliser le produit final, s’ils sont différents de ceux utilisés pendant nos travaux.Enfin, nous avons abordé la question des traitements à appliquer au signal capturé par la caméra. Nous avons proposé des traitements en temps réel sur la luminosité dans le but d’augmenter la luminosité dans les zones sombres de l’image et de baisser la luminosité dans les zones qui éblouissent le patient. Nous avons montré les limitations de l’imagerie classique et la nécessité de travailler sur des images HDR (high dynamic range) Nous avons comparé plusieurs méthodes pour permettre l’affichage de ces images HDR sur les écrans de plus faible dynamique, en recherchant les caractéristiques de l’image que ces méthodes doivent préserver au mieux, et en prenant en compte les performances visuelles des utilisateurs potentiels. Nous avons aussi proposé des traitements sur la couleur en augmentant le contraste et la saturation pour rendre les images mieux perceptibles par les patients qui souffrent de troubles de vision des couleurs. / This thesis is part of a project conducted by the LGI2P research center (IMT Mines Ales). The project's final aim is to help people with vision disorders suffering from retinitis pigmentosa and glaucoma get back to work and improve their daily lives. The final device is designed to help people in their mobility activities: detecting obstacles, searching for visual signals, by addressing problems related to dazzling and haemeralopia affecting these potential users.The research of this thesis has several contributions to the project. First of all, parameters characterizing the residual vision of each user had to be defined. Indeed, each patient has his own light comfort conditions, which depend in particular on his pathology's progress: at each stage of the evolution of their disease, patients have specific minimum luminosity limits below which they no longer perceive the details in a scene, and also on the maximum luminosity above which they feel discomfort and pain. The definition of these limitations in luminosity will make it possible to parameterize the device and adapt it to each user. But there is no method to measure these limiting luminance levels. We have therefore participated in the design and development of specialized tests, and in the conduct of trials on visually impaired subjects, as part of a clinical trial led by the Nîmes University Hospital and the ARAMAV (institute specializing in low vision functional rehabilitation), for medical research. We have also proposed a new test to measure sensitivity to chromatic contrast, always with the aim of better adjusting the images displayed to users' vision.Then, we developed a prototype of the device (cameras and virtual reality video headset). In order to achieve these results, we had to choose the image capture and display equipment. A colorimetric calibration work on these equipments allowed us to link digital quantities (RGB code) and physical quantities (luminance and chrominance). This stage is required to perform the above tests under physically known conditions. It also allowed us to define the physical characteristics of the equipment that would be selected to produce the final product, whether they are different from those required during our work.Finally, we discussed the processing to be applied to the signal captured by the camera. We have proposed real-time brightness treatments to increase brightness in dark areas of the image and decrease brightness in areas that dazzle the patient. We have presented the limitations of conventional imaging and the necessity to work on HDR (high dynamic range) images. We have compared several methods to allow the display of these HDR images on screens with lower dynamic range, looking for the image characteristics that these methods should better preserve, and taking into consideration the visual performance of potential users. We have also suggested color treatments by increasing contrast and saturation to make images more perceptible to patients with color vision disorders.
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Caracterização tecnológica da madeira de schizolobium parahyba (Vell.) blake modificada termicamente / Technological characterization of thermally-modified Schizolobium parahyba (Vell.) Blake woodCalonego, Fred Willians [UNESP] 13 November 2017 (has links)
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Previous issue date: 2017-11-13 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / No Brasil, a espécie pioneira Schizolobium parahyba (Vell.) Blake, conhecida como Guapuruvu, tem potencial para os projetos de restauração ecológica da Floresta Atlântica, e quando atingem cerca de 15 anos podem ser retiradas mediante plano de manejo. Entretanto, uma característica indesejável da sua madeira é a presença acentuada de lenho juvenil e uma das suas limitações é a baixa durabilidade natural. Uma forma de minimizar este problema é a modificação térmica logo após a sua secagem. Porém, esses tratamentos provocam mudanças na cor da madeira. Assim, o objetivo desse estudo foi avaliar o efeito do tratamento de modificação térmica nas propriedades físicas, químicas e colorimétricas e na resistência dos lenhos juvenil e adulto de S. parahyba aos organismos xilófagos e ao intemperismo. Para tanto, foram usadas tábuas provenientes de toras de Guapuruvu, com cerca de 15 anos de idade, retiradas de uma área de recuperação florestal da Faculdade de Ciências Agronômicas, da UNESP, de Botucatu-SP. Cada tábua foi seccionada de modo a fornecer peças controle e outras destinadas para os tratamentos de modificação térmica, com temperaturas finais de 180ºC, 200ºC e 220ºC. Corpos de prova foram retirados para a caracterização tecnológica dos lenhos juvenil e adulto através dos ensaios de propriedades físicas, químicas, de caracterização colorimétrica da madeira e de resistências aos fungos de podridão parda Gloeophyllum trabeum e de podridão branca Pycnoporus sanguineus, ao cupim de madeira seca Cryptotermes brevis e ao intemperismo. Os resultados mostraram que: (1) o aumento da temperatura de modificação térmica promove decréscimos significativos de até 9,1% na massa específica aparente a 21ºC e 65% de umidade relativa da madeira de S. parahyba, e reduz em até 51,1% e 54,1% os seus respectivos teores de umidade de equilíbrio e inchamento volumétrico; (2) a massa específica básica e os coeficientes de retratibilidades não variam com os tratamentos térmicos e não são indicados para avaliar a qualidade da madeira modificada termicamente; (3) a modificação térmica provoca reduções significativas de até 25,0% nos teores de holocelulose e um aumento proporcional de até 41,7% e 286,5% nos respectivos teores de lignina e de extrativos totais da madeira; (4) a cor da madeira sem tratamento é classificada como branco amarelada, pois apresenta alta claridade (L* de 80,41 a 80,85) e presença marcante do pigmento amarelo (b* de 19,06 a 20,07), e o tratamento térmico provoca o seu escurecimento e avermelhamento; (5) a madeira sem tratamento é classificada como não resistente ao cupim de madeira seca e ao fungo de podridão parda, e, de resistência moderada ao fungo de podridão branca, sendo que os tratamentos térmicos provocam reduções significativas de até 90,6% nas perdas de massa provocadas pelos fungos apodrecedores e não mudam a classe de resistência da madeira aos cupins; e (6) a madeira sem tratamento ficou mais escurecida, avermelhada e amarelada após o intemperismo, e o tratamento térmico aumenta a sua resistência aos agentes abióticos. Pode-se concluir que a modificação térmica possui um grande potencial para melhorar a estabilidade dimensional e a resistência natural da madeira de S. parahyba aos fungos apodrecedores e ao intemperismo, embora, modifique a sua cor e não altera a sua classe de resistência aos cupins. / In Brazil, the pioneer plant species Schizolobium parahyba (Vell.) Blake, known as Guapuruvu, has potential for ecological restoration projects in the Atlantic Forest, and when they reach about 15 years can be taken by the management plan. However, an undesirable feature of this wood is the pronunced presence of juvenile wood and a limitation is low biological resistance. An attractive way to mitigate this problem is this thermal modification process after its drying. However, these thermal treatments cause changes in color of wood. The aim of this study was to evaluate the effect of thermal modification on physicochemical and colorimetric properties and biological resistance of juvenile and mature woods from S. parahyba to xylophagous organisms and weathering. Boards were taken from a 15-year-old S. parahyba forest recovery area of Agronomy Sciences College from UNESP, located in Botucatu, SP, Brazil. Each board was sawed into smaller pieces measuring 0.60 m in length. One small piece was kept in its original condition (untreated wood), whereas the other pieces were reserved for the thermal treatments at final temperature of 180ºC, 200ºC, and 220ºC. Subsequently, samples were cut from all the boards (untreated and thermally modified woods) to technological characterization for both juvenile and mature wood across to tests of physical and chemical properties, colorimetric characterization of wood, decay resistance at brown-rot fungus Gloeophyllum trabeum and white-rot fungus Pycnoporus sanguineus, biological resistance to térmite dry wood Cryptotermes brevis, and weathering resistance. The results showed that: (1) the increase in the thermal modification temperature causes significant decreases of up to 9,1% in the density at 21ºC and 65% relative humidity of the S. parahyba wood and reduces the equilibrium moisture content and volumetric swellings in up to 51.1% and 54.1%, respectively; (2) the density basic and dimensional change coefficient of wood were not the most suitable for evaluating the quality of thermally modified wood; (3) the thermal modification causes significant decreases of up to 25.0% in the holocelulloses contents, an proportional increase of up to 41.7% e 286.5% in the lignin and extractives contents, respectively; (4) the color of untreated wood can be classified by yellowish white, because presents high brightness (L* of 80.41 to 80.85) and strong presence of yellow pigment (b* of 19.06 to 20.07), and the thermal treatment causes the darkening and reddening of timber; (5) the untreated wood was classified as non-durable to the dry wood termites and brown-rot fungus, and also was classified as moderate resistance to the white-rot fungus, whereas the thermal modification promotes significant reductions of up to 90.6% in the weight losses caused by rot fungi and do not change the damage caused by termites in wood; and (6) the untreated wood showed darkening, a reddish behavior and a yellowish behavior after weathering tests, and the thermal modification causes significant decreases in the weathering of wood. We concluded that the thermal modification has a great potential to improve the dimensional stability and the natural resistance of S. parahyba wood to decay fungi and weathering, although it modifies the color of wood and does not change its resistance class to the termite.
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Synthesis and Characterization of Pani-Coated Vgcnfs and Evaluation of its Use for Corrosion InhibitionCebada-Ricalde, Maria Concepcion 15 August 2014 (has links)
Recently, conductive polymer/carbon nanomaterials have drawn attention for use in corrosion inhibition, sensors, energy storage devices, and coatings for electromagnetic shielding applications due to their good mechanical properties and electronic conductivity. Therefore, efforts have been made to find fast and facile methods for the synthesis and development of these hybrids that allow control over key parameters, such as the thickness of the conductive polymer coating. In this study, such hybrids were prepared using polyaniline (PANI) as the conductive polymer and vapor-grown carbon nanofibers (VGCNFs) as the carbon nanomaterial or filler by a semi-dilute in situ polymerization method to be evaluated for their effectiveness as corrosion inhibitory additives to alkyd paints. Spectroscopic, colorimetric, and electric properties of PANI-coated VGCNFs were investigated. The thickness of the PANI coating, along with other parameters, impacts the behavior and mechanisms by which the nanomaterial performs its role in a given application, particularly in the corrosion inhibition processes. Thus, different synthesis conditions, including pretreatment of the nanofibers, the presence of sodium dodecyl sulfate (SDS) surfactant, PreT-VGCNF/ANI ratios (w/w), and polymerization times were tested and their effects on the PANI thickness were microscopically and statistically evaluated. It was found that only different PreT-VGCNF/ANI ratios allowed definite control of the PANI thickness. No clear effect on the thickness was observed after three hours of polymerization. The presence of SDS and pretreatment of VGCNFs displayed a synergistic effect on the appearance and thickness of the PANI film. PANI-coated VGCNF additives, with PANI in the leucoemeraldine base (LEB) and emeraldine base (EB) forms, were synthesized using a PreT-VGCNF/ANI ratio of 0.4 in the presence of SDS. Cold-rolled steel coupons were coated with 20-30 ìm thick alkyd paint coatings, and their electrochemical behavior was investigated by open circuit potential (OCP) and electrochemical impedance (EIS) measurements. The results indicate that, overall, EB/VGCNF additive performed better as a corrosion inhibitor, followed by PreT-VGCNF and LEB/VGCNF additives.
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