1000 resultados para Arthur (roi)
Resumo:
Charles-Marie de La Condamine nasceu em Paris, em 1701, e morreu, em 1774, na mesma cidade. Foi militar enquanto jovem, carreira que abandonou para dedicar-se ao estudo das ciências, sobretudo da Matemática, da Física, da História Natural e da Medicina. Seu interesse por novos conecimentos levou-o a participar de expedições científicas, entre as quais, a que descreve nesta obra.
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O objetivo principal deste trabalho será investigar algumas das teses de Arthur Danto, que reconhece nas práticas artísticas contemporâneas um ponto de inflexão a partir do qual um novo paradigma artístico, ainda hoje em plena vigência, teria se imposto. Abordaremos a obra de Danto a partir do ponto de vista de Gilles Deleuze e Felix Guattari, que em O que é a Filosofia? Afirmam ser a filosofia uma criação que consistiria de três elementos fundamentais, quais sejam: o plano de imanência, os conceitos e os personagens conceituais. Assim, utilizaremos esta perspectiva para definir o plano de imanência de Danto, bem como seus conceitos e personagens, aproveitando para refletir sobre a relevância e validade filosófica de associar escolas filosóficas antagônicas, tais como a filosofia americana e a filosofia francesa.
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Essa tese tem como objetivo primordial estudar a trajetória musical do pianista português Arthur Napoleão (1843-1925), desde a sua iniciação musical na cidade natal do Porto, até o falecimento no Rio de Janeiro em 1925. Discute-se aqui a relevância da inserção do pianista e de sua música nos meio sócios-culturais dos países da Europa e Américas, em cujas cidades se apresentou durante os primeiros quinze anos de sua carreira. Do mesmo modo, estuda-se também as circunstâncias da permanência do notável intérprete no Brasil, como imigrante radicado, desde 1868, bem como se deu a consolidação da sua nova perspectiva laboral no campo da música, como empreendedor e mediador cultural. E ainda por meio da organização de estabelecimentos comerciais voltados para a venda de pianos e partituras musicais, que se tornaram importantes espaços de sociabilidade musical na Corte, depois capital federal da República, ao longo de sua vida. As numerosas e variadas fontes aqui utilizadas são caudatárias do texto autobiográfico legado por Arthur Napoleão, de 1907. Essas "Memórias", ao mesmo tempo fonte de informação e objeto de estudo, possibilitam traçar, pelo exame vis-à-vis com a documentação restante, a trajetória artística de Arthur Napoleão, desde Portugal até o Brasil, no universo sócio-cultural em transformação, da segunda metade do século XIX ao primeiro quarto do XX.
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O objetivo do presente trabalho é analisar a resposta de Danto ao problema da natureza da arte. Para isso, investigaremos o modo como ele utiliza os experimentos dos indiscerníveis, tanto para objetar as teorias tradicionais da arte como para erigir sua definição; e filosofia da arte, o que pode ser chamado, respectivamente, de tarefa negativa e tarefa positiva do uso do método dos indiscerníveis. A primeira parte desse trabalho se ocupa da tarefa de investigar justamente como os experimentos dos indiscerníveis são usados para objetar as teorias mimética, formalista, expressivista, institucionais, da atitude estética, e, por fim, a teoria da indefinibilidade da arte. A segunda parte trata de demonstrar como Danto, através dos experimentos dos indiscerníveis, extrai as condições necessárias e suficientes de sua definição de arte. A terceira e última parte deste trabalho analisa a relação existente entre a definição da arte e a filosofia da história da arte de Danto, principalmente a tese acerca do fim da arte.
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O objetivo do presente trabalho é analisar o arquivo pessoal de Arthur Ramos, intelectual que teve uma destacada participação nos debates sobre a democracia racial e na institucionalização das Ciências Sociais no Brasil nas décadas de 1930 e 1940. Através de seu acervo, custodiado pela Divisão de Manuscritos da Fundação Biblioteca Nacional, procurou-se perceber quais processos sociológicos que podem incidir sobre a formação do patrimônio documental, além das estratégias de construção e re-elaboração desta memória. Foram debatidas as teorias e práticas da arquivista para mapear diferentes formas de deslocamentos, ressignificação e reclassificação dos arquivos em geral e desse caso particular. Para isto, foram analisados o processo de compra do fundo Arthur Ramos, os relatórios de atividades, o inventário analítico do fundo, além de entrevistas informais.
Resumo:
Arthur Azevedo viveu uma época de mudanças. Nascido em São Luís do Maranhão, em 7 de julho de 1855, na Corte, como tantos outros jovens provincianos daquela época. No Rio de Janeiro, foi jornalista, escritor, funcionário público e destacado autor teatral. Testemunhou a passagem do Império à República, fazendo desse conjunto de acontecimentos, matéria e cenário para suas crônicas, contos e peças teatrais, em especial, em suas Revistas de Ano. Partindo do conceito de cultura política, tal como foi formulado por Serge Bernstein, pretende-se analisar a produção de Arthur nos anos subseqüentes à mudança do regime, à luz do contexto social e teatral experimentado pelo autor, articulando suas escolhas políticas e a cultura da época à obra por ele deixada.
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http://www.archive.org/details/lifeandworkofrev00lewiiala
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http://www.archive.org/details/arthurdouglasmi00douguoft
Resumo:
On-board image guidance, such as cone-beam CT (CBCT) and kV/MV 2D imaging, is essential in many radiation therapy procedures, such as intensity modulated radiotherapy (IMRT) and stereotactic body radiation therapy (SBRT). These imaging techniques provide predominantly anatomical information for treatment planning and target localization. Recently, studies have shown that treatment planning based on functional and molecular information about the tumor and surrounding tissue could potentially improve the effectiveness of radiation therapy. However, current on-board imaging systems are limited in their functional and molecular imaging capability. Single Photon Emission Computed Tomography (SPECT) is a candidate to achieve on-board functional and molecular imaging. Traditional SPECT systems typically take 20 minutes or more for a scan, which is too long for on-board imaging. A robotic multi-pinhole SPECT system was proposed in this dissertation to provide shorter imaging time by using a robotic arm to maneuver the multi-pinhole SPECT system around the patient in position for radiation therapy.
A 49-pinhole collimated SPECT detector and its shielding were designed and simulated in this work using the computer-aided design (CAD) software. The trajectories of robotic arm about the patient, treatment table and gantry in the radiation therapy room and several detector assemblies such as parallel holes, single pinhole and 49 pinholes collimated detector were investigated. The rail mounted system was designed to enable a full range of detector positions and orientations to various crucial treatment sites including head and torso, while avoiding collision with linear accelerator (LINAC), patient table and patient.
An alignment method was developed in this work to calibrate the on-board robotic SPECT to the LINAC coordinate frame and to the coordinate frames of other on-board imaging systems such as CBCT. This alignment method utilizes line sources and one pinhole projection of these line sources. The model consists of multiple alignment parameters which maps line sources in 3-dimensional (3D) space to their 2-dimensional (2D) projections on the SPECT detector. Computer-simulation studies and experimental evaluations were performed as a function of number of line sources, Radon transform accuracy, finite line-source width, intrinsic camera resolution, Poisson noise and acquisition geometry. In computer-simulation studies, when there was no error in determining angles (α) and offsets (ρ) of the measured projections, the six alignment parameters (3 translational and 3 rotational) were estimated perfectly using three line sources. When angles (α) and offsets (ρ) were provided by Radon transform, the estimation accuracy was reduced. The estimation error was associated with rounding errors of Radon transform, finite line-source width, Poisson noise, number of line sources, intrinsic camera resolution and detector acquisition geometry. The estimation accuracy was significantly improved by using 4 line sources rather than 3 and also by using thinner line-source projections (obtained by better intrinsic detector resolution). With 5 line sources, median errors were 0.2 mm for the detector translations, 0.7 mm for the detector radius of rotation, and less than 0.5° for detector rotation, tilt and twist. In experimental evaluations, average errors relative to a different, independent registration technique were about 1.8 mm for detector translations, 1.1 mm for the detector radius of rotation (ROR), 0.5° and 0.4° for detector rotation and tilt, respectively, and 1.2° for detector twist.
Simulation studies were performed to investigate the improvement of imaging sensitivity and accuracy of hot sphere localization for breast imaging of patients in prone position. A 3D XCAT phantom was simulated in the prone position with nine hot spheres of 10 mm diameter added in the left breast. A no-treatment-table case and two commercial prone breast boards, 7 and 24 cm thick, were simulated. Different pinhole focal lengths were assessed for root-mean-square-error (RMSE). The pinhole focal lengths resulting in the lowest RMSE values were 12 cm, 18 cm and 21 cm for no table, thin board, and thick board, respectively. In both no table and thin board cases, all 9 hot spheres were easily visualized above background with 4-minute scans utilizing the 49-pinhole SPECT system while seven of nine hot spheres were visible with the thick board. In comparison with parallel-hole system, our 49-pinhole system shows reduction in noise and bias under these simulation cases. These results correspond to smaller radii of rotation for no-table case and thinner prone board. Similarly, localization accuracy with the 49-pinhole system was significantly better than with the parallel-hole system for both the thin and thick prone boards. Median localization errors for the 49-pinhole system with the thin board were less than 3 mm for 5 of 9 hot spheres, and less than 6 mm for the other 4 hot spheres. Median localization errors of 49-pinhole system with the thick board were less than 4 mm for 5 of 9 hot spheres, and less than 8 mm for the other 4 hot spheres.
Besides prone breast imaging, respiratory-gated region-of-interest (ROI) imaging of lung tumor was also investigated. A simulation study was conducted on the potential of multi-pinhole, region-of-interest (ROI) SPECT to alleviate noise effects associated with respiratory-gated SPECT imaging of the thorax. Two 4D XCAT digital phantoms were constructed, with either a 10 mm or 20 mm diameter tumor added in the right lung. The maximum diaphragm motion was 2 cm (for 10 mm tumor) or 4 cm (for 20 mm tumor) in superior-inferior direction and 1.2 cm in anterior-posterior direction. Projections were simulated with a 4-minute acquisition time (40 seconds per each of 6 gates) using either the ROI SPECT system (49-pinhole) or reference single and dual conventional broad cross-section, parallel-hole collimated SPECT. The SPECT images were reconstructed using OSEM with up to 6 iterations. Images were evaluated as a function of gate by profiles, noise versus bias curves, and a numerical observer performing a forced-choice localization task. Even for the 20 mm tumor, the 49-pinhole imaging ROI was found sufficient to encompass fully usual clinical ranges of diaphragm motion. Averaged over the 6 gates, noise at iteration 6 of 49-pinhole ROI imaging (10.9 µCi/ml) was approximately comparable to noise at iteration 2 of the two dual and single parallel-hole, broad cross-section systems (12.4 µCi/ml and 13.8 µCi/ml, respectively). Corresponding biases were much lower for the 49-pinhole ROI system (3.8 µCi/ml), versus 6.2 µCi/ml and 6.5 µCi/ml for the dual and single parallel-hole systems, respectively. Median localization errors averaged over 6 gates, for the 10 mm and 20 mm tumors respectively, were 1.6 mm and 0.5 mm using the ROI imaging system and 6.6 mm and 2.3 mm using the dual parallel-hole, broad cross-section system. The results demonstrate substantially improved imaging via ROI methods. One important application may be gated imaging of patients in position for radiation therapy.
A robotic SPECT imaging system was constructed utilizing a gamma camera detector (Digirad 2020tc) and a robot (KUKA KR150-L110 robot). An imaging study was performed with a phantom (PET CT Phantom
In conclusion, the proposed on-board robotic SPECT can be aligned to LINAC/CBCT with a single pinhole projection of the line-source phantom. Alignment parameters can be estimated using one pinhole projection of line sources. This alignment method may be important for multi-pinhole SPECT, where relative pinhole alignment may vary during rotation. For single pinhole and multi-pinhole SPECT imaging onboard radiation therapy machines, the method could provide alignment of SPECT coordinates with those of CBCT and the LINAC. In simulation studies of prone breast imaging and respiratory-gated lung imaging, the 49-pinhole detector showed better tumor contrast recovery and localization in a 4-minute scan compared to parallel-hole detector. On-board SPECT could be achieved by a robot maneuvering a SPECT detector about patients in position for radiation therapy on a flat-top couch. The robot inherent coordinate frames could be an effective means to estimate detector pose for use in SPECT image reconstruction.