6 resultados para Service Contract, Rail Failure, Maintenance, Cost Model
em Archivo Digital para la Docencia y la Investigación - Repositorio Institucional de la Universidad del País Vasco
Un modelo de programación por metas para la elaboración del contrato-programa de un hospital público
Resumo:
[ES] Proponemos un modelo de programación por metas para la estimación del plan de producción (case-mix) que debe reflejarse en el Contrato–Programa que suscriben anualmente los Hospitales Públicos y la Administración. Las variables de decisión son los volúmenes de actividad de cada servicio médico del hospital y los atributos son los indicadores básicos que se manejan al elaborar el Contrato-Programa: fi nanciación, número de altas, estancia media y peso de complejidad. Para resolver nuestro modelo empleamos la herramienta SOLVER de la hoja de cálculo EXCEL. La utilización de esta herramienta permite simular varios escenarios de una manera ágil, lo que es de gran ayuda para el estudio y discusión de las cantidades a contratar entre el Hospital y la Administración. El artículo finaliza con una breve presentación de los resultados obtenidos al aplicar nuestro modelo a un hospital de tamaño medio (118 camas) del Servicio Vasco de Salud.
Resumo:
Published as an article in: Journal of International Money and Finance, 2010, vol. 29, issue 6, pages 1171-1191.
Resumo:
It has long been known that neurons in the brain are not physiologically homogeneous. In response to current stimulus, they can fire several distinct patterns of action potentials that are associated with different physiological classes ranging from regular-spiking cells, fast-spiking cells, intrinsically bursting cells, and low-threshold cells. In this work we show that the high degree of variability in firing characteristics of action potentials among these cells is accompanied with a significant variability in the energy demands required to restore the concentration gradients after an action potential. The values of the metabolic energy were calculated for a wide range of cell temperatures and stimulus intensities following two different approaches. The first one is based on the amount of Na+ load crossing the membrane during a single action potential, while the second one focuses on the electrochemical energy functions deduced from the dynamics of the computational neuron models. The results show that the thalamocortical relay neuron is the most energy-efficient cell consuming between 7 and 18 nJ/cm(2) for each spike generated, while both the regular and fast spiking cells from somatosensory cortex and the intrinsically-bursting cell from a cat visual cortex are the least energy-efficient, and can consume up to 100 nJ/cm(2) per spike. The lowest values of these energy demands were achieved at higher temperatures and high external stimuli.
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This paper presents a model designed to study vertical interactions between wheel and rail when the wheel moves over a rail welding. The model focuses on the spatial domain, and is drawn up in a simple fashion from track receptances. The paper obtains the receptances from a full track model in the frequency domain already developed by the authors, which includes deformation of the rail section and propagation of bending, elongation and torsional waves along an infinite track. Transformation between domains was secured by applying a modified rational fraction polynomials method. This obtains a track model with very few degrees of freedom, and thus with minimum time consumption for integration, with a good match to the original model over a sufficiently broad range of frequencies. Wheel-rail interaction is modelled on a non-linear Hertzian spring, and consideration is given to parametric excitation caused by the wheel moving over a sleeper, since this is a moving wheel model and not a moving irregularity model. The model is used to study the dynamic loads and displacements emerging at the wheel-rail contact passing over a welding defect at different speeds.
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190 p.
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24 p.
