973 resultados para Air Force Flight Test Center (U.S.)
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Este estudo, de cunho histórico-social, tem como objeto a inserção de enfermeiras como oficiais da Força Aérea Brasileira (FAB) por meio do pioneiro Quadro Feminino de Oficiais (QFO). O marco inicial do estudo refere-se ao início do Estágio de Adaptação militar, em 02 de agosto de 1982 no Centro de Instrução Especializada da Aeronáutica (CIEAR), localizado na cidade do Rio de Janeiro. O marco final do estudo diz respeito ao término do período inicial obrigatório de dois anos de cumprimento de serviço ativo dessas enfermeiras, que culminou com a promoção das mesmas ao posto de 1Tenente (1984). Os objetivos do estudo são: descrever as circunstâncias de inserção das enfermeiras no processo seletivo do QFO, analisar o processo de incorporação do habitus militar durante o Estágio de Adaptação, e discutir as estratégias de luta das enfermeiras militares para ocuparem seus lugares devidos nos hospitais da FAB. A técnica de coleta de dados utilizada foi a entrevista e ocorreu no período de abril a maio de 2009 em hospitais da FAB da cidade do Rio de Janeiro. Foram entrevistadas cinco enfermeiras militares da primeira turma do QFO. O estudo foi cadastrado no SISNEP e aprovado pelo Comitê de Ética da FAB. Todos os sujeitos assinaram o Termo de consentimento livre e esclarecido e o Termo de doação de depoimento oral. O método utilizado foi o da História oral temática o referencial teórico do estudo foi baseado no pensamento do sociólogo francês Pierre Bourdieu, cujos conceitos de poder simbólico, habitus, campo, espaço social e violência simbólica sustentaram a construção desta dissertação. Para a análise e interpretação dos dados, seguimos os passos propostos por Maria Cecília Minayo de ordenação de dados, que compreendeu a transcrição na íntegra dos depoimentos; classificação cronológica e temática dos documentos escritos; classificação dos dados e a análise final. Evidenciou-se que diversos motivos incentivaram as enfermeiras a almejarem sua inserção na FAB como a boa remuneração, estabilidade financeira, progressão profissional, desbravamento de um novo campo de trabalho, clientela diferenciada, aposentadoria com salário integral e pioneirismo na FAB. O objetivo do Estágio de Adaptação militar foi inculcar do habitus militar nas candidatas a partir de ensinamentos baseados na hierarquia, disciplina, ética, dever e compromisso militar. Ao se inserirem nos hospitais da FAB, as enfermeiras receberam diversos cargos e funções, galgando um poder simbólico sobre a equipe de enfermagem. As inevitáveis lutas simbólicas dessas enfermeiras ocorreram com os médicos militares, com a equipe de enfermagem, com as enfermeiras civis e com a própria administração do hospital, e revelaram aspectos característicos de violência simbólica desencadeada por lutas de gênero e pela manutenção do poder, visto que as enfermeiras, dotadas de status de chefe e de militar, se inseriram num campo eminentemente masculino.
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A presente pesquisa tem como objetivo geral analisar as representações sociais da hierarquia construídas pelos militares da FAB, considerando suas segmentações em termos dos círculos de oficiais e graduados, dos respectivos processos de formação, dos sexos de seus componentes e dos estágios, se formados ou em formação, em que se encontram. A fundamentação teórica discorre sobre a hierarquia, princípio geral das instituições militares, previsto por lei e regulador do comportamento militar, conforme prevê o Estatuto dos Militares (BRASIL, 1980); a respeito do poder, na perspectiva de Max Weber (1999) que trata a obediência, a partir da autoridade de uma pessoa sobre outras, e de acordo com Amitai Etzioni (1974), que entende o poder como a capacidade que uma pessoa tem de induzir outra a seguir suas orientações. Apresenta ainda a Teoria das Representações Sociais, proposta por Serge Moscovici (1961), para quem as representações sociais servem de instrumento de leitura da realidade, e a partir da abordagem estrutural, proposta por Jean-Claude Abric (1976), segundo a qual a representação social é composta pelo sistema central, constituído pelo núcleo central, e pelo sistema periférico, formado por elementos periféricos. A amostra foi composta por 600 militares, oriundos das escolas de formação de oficiais e de graduados, do âmbito do Comando da Aeronáutica (COMAER): Academia da Força Aérea (AFA), cuja finalidade é a formação dos Oficiais da Ativa dos quadros de Aviação, de Intendência e de Infantaria, a Escola de Especialistas da Aeronáutica (EEAR), responsável pela formação e pelo aperfeiçoamento dos graduados e o Centro de Instrução Especializada da Aeronáutica (CIEAR), responsável pela capacitação de oficiais e graduados em áreas afins à sua especialização. A coleta de dados foi realizada por meio da técnica de evocação livre ao termo indutor hierarquia, da aplicação do questionário de caracterização e do questionário geral, composto por questões abertas e fechadas. As evocações foram processadas pelo software EVOC, desenvolvido por Pierre Vergès (2005), as questões fechadas receberam o processamento com o auxílio do software SPSS e as questões abertas sofreram uma categorização para o refinamento das análises. Os resultados encontrados nas comparações do conteúdo temático e da estrutura das representações sociais entre os diferentes segmentos permitem afirmar que os temas respeito e disciplina são os prováveis elementos centrais da hierarquia para o conjunto dos 600 militares pesquisados e caracterizam a base comum e consensual compartilhada na caserna. A hierarquia, norteada por um conjunto de regras que regula e assegura a disciplina e o respeito, direciona o comportamento dos militares, durante a formação e no decorrer da carreira. Da análise, conclui-se que os diferentes segmentos de militares da FAB possuem a mesma representação social de hierarquia.
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This paper describes the design considerations for a proposed aerodynamic characterization facility (ACF) for micro aerial vehicles (MAVs). This is a collaborative effort between the Air Force Research Laboratory Munitions Directorate (AFRL/MN) and the University of Florida Research and Engineering Education Facility (UF/REEF). The ACF is expected to provide a capability for the characterization of the aerodynamic performance of future MAVs. This includes the ability to gather the data necessary to devise control strategies as well as the potential to investigate aerodynamic 'problem areas' or specific failings. Since it is likely that future MAVs will incorporate advanced control strategies, the facility must enable researchers to critically assess such novel methods. Furthermore, the aerodynamic issues should not be seen (and tested) in isolation, but rather the facility should be able to also provide information on structural responses (such as aeroelasticity) as well as integration issues (say, thrust integration or sensor integration). Therefore the mission for the proposed facility ranges form fairly basic investigations of individual technical issues encountered by MAVs (for example an evaluation of wing shapes or control effectiveness) all the way to testing a fully integrated vehicle in a flight configuration for performance evaluation throughout the mission envelope.
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Wydział Historyczny
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Air Force Office of Scientific Research (F49620-01-1-0397); Office of Naval Research (N00014-01-1-0624)
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A model of laminar visual cortical dynamics proposes how 3D boundary and surface representations of slated and curved 3D objects and 2D images arise. The 3D boundary representations emerge from interactions between non-classical horizontal receptive field interactions with intracorticcal and intercortical feedback circuits. Such non-classical interactions contextually disambiguate classical receptive field responses to ambiguous visual cues using cells that are sensitive to angles and disparity gradients with cortical areas V1 and V2. These cells are all variants of bipole grouping cells. Model simulations show how horizontal connections can develop selectively to angles, how slanted surfaces can activate 3D boundary representations that are sensitive to angles and disparity gradients, how 3D filling-in occurs across slanted surfaces, how a 2D Necker cube image can be represented in 3D, and how bistable Necker cuber percepts occur. The model also explains data about slant aftereffects and 3D neon color spreading. It shows how habituative transmitters that help to control developement also help to trigger bistable 3D percepts and slant aftereffects, and how attention can influence which of these percepts is perceived by propogating along some object boundaries.
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The perception of a glossy surface in a static monochromatic image can occur when a bright highlight is embedded in a compatible context of shading and a bounding contour. Some images naturally give rise to the impression that a surface has a uniform reflectance, characteristic of a shiny object, even though the highlight may only cover a small portion of the surface. Nonetheless, an observer may adopt an attitude of scrutiny in viewing a glossy surface, whereby the impression of gloss is partial and nonuniform at image regions outside of a higlight. Using a rating scale and small probe points to indicate image locations, differential perception of gloss within a single object is investigate in the present study. Observers' gloss ratings are not uniform across the surface, but decrease as a function of distance from highlight. When, by design, the distance from a highlight is uncoupled from the luminance value at corresponding probe points, the decrease in rated gloss correlates more with the distance than with the luminance change. Experiments also indicate that gloss ratings change as a function of estimated surface distance, rather than as a function of image distance. Surface continuity affects gloss ratings, suggesting that apprehension of 3D surface structure is crucial for gloss perception.
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A key goal of behavioral and cognitive neuroscience is to link brain mechanisms to behavioral functions. The present article describes recent progress towards explaining how the visual cortex sees. Visual cortex, like many parts of perceptual and cognitive neocortex, is organized into six main layers of cells, as well as characteristic sub-lamina. Here it is proposed how these layered circuits help to realize the processes of developement, learning, perceptual grouping, attention, and 3D vision through a combination of bottom-up, horizontal, and top-down interactions. A key theme is that the mechanisms which enable developement and learning to occur in a stable way imply properties of adult behavior. These results thus begin to unify three fields: infant cortical developement, adult cortical neurophysiology and anatomy, and adult visual perception. The identified cortical mechanisms promise to generalize to explain how other perceptual and cognitive processes work.
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The concept of attention has been used in many senses, often without clarifying how or why attention works as it does. Attention, like consciousness, is often described in a disembodied way. The present article summarizes neural models and supportive data and how attention is linked to processes of learning, expectation, competition, and consciousness. A key them is that attention modulates cortical self-organization and stability. Perceptual and cognitive neocortex is organized into six main cell layers, with characteristic sub-lamina. Attention is part of unified design of bottom-up, horizontal, and top-down interactions among indentified cells in laminar cortical circuits. Neural models clarify how attention may be allocated during processes of visual perception, learning and search; auditory streaming and speech perception; movement target selection during sensory-motor control; mental imagery and fantasy; and hallucination during mental disorders, among other processes.
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The default ARTMAP algorithm and its parameter values specified here define a ready-to-use general-purpose neural network system for supervised learning and recognition.
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What brain mechanisms underlie autism and how do they give rise to autistic behavioral symptoms? This article describes a neural model, called the iSTART model, which proposes how cognitive, emotional, timing, and motor processes may interact together to create and perpetuate autistic symptoms. These model processes were originally developed to explain data concerning how the brain controls normal behaviors. The iSTART model shows how autistic behavioral symptoms may arise from prescribed breakdowns in these brain processes.
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Neural models have proposed how short-term memory (STM) storage in working memory and long-term memory (LTM) storage and recall are linked and interact, but are realized by different mechanisms that obey different laws. The authors' data can be understood in the light of these models, which suggest that the authors may have gone too far in obscuring the differences between these processes.
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ACT is compared with a particular type of connectionist model that cannot handle symbols and use non-biological operations that cannot learn in real time. This focus continues an unfortunate trend of straw man "debates" in cognitive science. Adaptive Resonance Theory, or ART, neural models of cognition can handle both symbols and sub-symbolic representations, and meets the Newell criteria at least as well as these models.
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This article develops a neural model of how the visual system processes natural images under variable illumination conditions to generate surface lightness percepts. Previous models have clarified how the brain can compute the relative contrast of images from variably illuminate scenes. How the brain determines an absolute lightness scale that "anchors" percepts of surface lightness to us the full dynamic range of neurons remains an unsolved problem. Lightness anchoring properties include articulation, insulation, configuration, and are effects. The model quantatively simulates these and other lightness data such as discounting the illuminant, the double brilliant illusion, lightness constancy and contrast, Mondrian contrast constancy, and the Craik-O'Brien-Cornsweet illusion. The model also clarifies the functional significance for lightness perception of anatomical and neurophysiological data, including gain control at retinal photoreceptors, and spatioal contrast adaptation at the negative feedback circuit between the inner segment of photoreceptors and interacting horizontal cells. The model retina can hereby adjust its sensitivity to input intensities ranging from dim moonlight to dazzling sunlight. A later model cortical processing stages, boundary representations gate the filling-in of surface lightness via long-range horizontal connections. Variants of this filling-in mechanism run 100-1000 times faster than diffusion mechanisms of previous biological filling-in models, and shows how filling-in can occur at realistic speeds. A new anchoring mechanism called the Blurred-Highest-Luminance-As-White (BHLAW) rule helps simulate how surface lightness becomes sensitive to the spatial scale of objects in a scene. The model is also able to process natural images under variable lighting conditions.
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Multiple sound sources often contain harmonics that overlap and may be degraded by environmental noise. The auditory system is capable of teasing apart these sources into distinct mental objects, or streams. Such an "auditory scene analysis" enables the brain to solve the cocktail party problem. A neural network model of auditory scene analysis, called the AIRSTREAM model, is presented to propose how the brain accomplishes this feat. The model clarifies how the frequency components that correspond to a give acoustic source may be coherently grouped together into distinct streams based on pitch and spatial cues. The model also clarifies how multiple streams may be distinguishes and seperated by the brain. Streams are formed as spectral-pitch resonances that emerge through feedback interactions between frequency-specific spectral representaion of a sound source and its pitch. First, the model transforms a sound into a spatial pattern of frequency-specific activation across a spectral stream layer. The sound has multiple parallel representations at this layer. A sound's spectral representation activates a bottom-up filter that is sensitive to harmonics of the sound's pitch. The filter activates a pitch category which, in turn, activate a top-down expectation that allows one voice or instrument to be tracked through a noisy multiple source environment. Spectral components are suppressed if they do not match harmonics of the top-down expectation that is read-out by the selected pitch, thereby allowing another stream to capture these components, as in the "old-plus-new-heuristic" of Bregman. Multiple simultaneously occuring spectral-pitch resonances can hereby emerge. These resonance and matching mechanisms are specialized versions of Adaptive Resonance Theory, or ART, which clarifies how pitch representations can self-organize durin learning of harmonic bottom-up filters and top-down expectations. The model also clarifies how spatial location cues can help to disambiguate two sources with similar spectral cures. Data are simulated from psychophysical grouping experiments, such as how a tone sweeping upwards in frequency creates a bounce percept by grouping with a downward sweeping tone due to proximity in frequency, even if noise replaces the tones at their interection point. Illusory auditory percepts are also simulated, such as the auditory continuity illusion of a tone continuing through a noise burst even if the tone is not present during the noise, and the scale illusion of Deutsch whereby downward and upward scales presented alternately to the two ears are regrouped based on frequency proximity, leading to a bounce percept. Since related sorts of resonances have been used to quantitatively simulate psychophysical data about speech perception, the model strengthens the hypothesis the ART-like mechanisms are used at multiple levels of the auditory system. Proposals for developing the model to explain more complex streaming data are also provided.
