Navegando por Palavras-chave "Displacement"

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    Antropologia Em Movimento: Mulheres, Espaço E Deslocamento No Cinema Como Lugar Etnográfico
    (Universidade Federal de São Paulo (UNIFESP), 2018-06-04) Andrade, Janaina Sant Ana De [UNIFESP]; Barbosa, Andrea Claudia Miguel Marques [UNIFESP]; Universidade Federal de São Paulo (UNIFESP)
    This Research Aims To Reflect On An Anthropological Take Of Space Through Cinema. By Means Of A Sensitization With And From Image, We Seek To Think The Relation Between Space And Displacement On Cinema, Which Appears As A Heterotopic Place. The Analysis Of The Films, Thought In Ethnographic Molds, Is Especially Concerned With This Relation From The Perspective Of Female Characters.
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    Acesso aberto (Open Access)
    Determinação do deslocamento da parede ventricular esquerda em imagens ecocardiográficas para prover dados fisiológicos à animação de modelo virtual do coração
    (Universidade Federal de São Paulo (UNIFESP), 2020-12-04) Ganem, Gabriela Colares Ali [UNIFESP]; Godoy, Carlos Marcelo Gurjao De [UNIFESP]; Universidade Federal de São Paulo
    The advancement of three-dimensional (3D) computer simulation has resulted in high-fidelity virtual heart models useful for implementing health educational tools. Heart models that provide realistic visualization of the heart are concerned with physiological heart movements observed in medical exam images, such as echocardiograms. As applying the cardiac surface, mainly of the left ventricle is relevant for the understanding of cardiac movements, the objective of the present work was to determine, from echocardiographic images, the displacement of the internal and external walls of the human left ventricle, to provide physiological animation data of the heartbeat in a virtual 3D model of the left ventricle. The results show that the displacement's selected values satisfactorily express the cardiac ultrasound images' real movement. It also reveals the assertiveness in determining the reference points and the study points' extrapolation for the other ventricular chamber regions. The approach used is a pioneer in providing physiological data on the displacement of the left ventricular walls in centimeters for 3D animation of the ventricular chamber, which, as expressed in the results, can be used to increase the degree of fidelity of the simulation concerning the movement or even reproducing it. Thus, the determination of the left ventricular wall's movement and its implementation in an animation of the 3D virtual model complies with the echocardiogram images. That is a useful technique for future implementation in the other cardiac chambers and teaching tools and (or) cardiac learning.