Path integral approach to the full Dicke model

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Building roof contour extraction from LiDAR data

This paper proposes a method for the automatic extraction of building roof contours from a LiDAR-derived digital surface model (DSM). The method is based on two steps. First, to detect aboveground objects (buildings, trees, etc.), the DSM is segmented through a recursive splitting technique followed by a region merging process. Vectorization and polygonization are used to obtain polyline representations of the detected aboveground objects. Second, building roof contours are identified from among the aboveground objects by optimizing a Markov-random-field-based energy function that embodies roof contour attributes and spatial constraints. Preliminary results have shown that the proposed methodology works properly.

Simulated annealing for building roof contours identification from lidar data

This paper proposes a method by simulated annealing for building roof contours identification from LiDAR-derived digital elevation model. Our method is based on the concept of first extracting aboveground objects and then identifying those objects that are building roof contours. First, to detect aboveground objects (buildings, trees, etc.), the digital elevation model is segmented through a recursive splitting technique followed by a region merging process. Vectorization and polygonization are used to obtain polyline representations of the detected aboveground objects. Second, building roof contours are identified from among the aboveground objects by optimizing a Markov-random-field-based energy function that embodies roof contour attributes and spatial constraints. The solution of this function is a polygon set corresponding to building roof contours and is found by using a minimization technique, like the Simulated Annealing algorithm. Experiments carried out with laser scanning digital elevation model showed that the methodology works properly, as it provides roof contour information with approximately 90% shape accuracy and no verified false positives.

Métodos analíticos, numéricos e experimentais para o cálculo de ondas de impacto em meios líquidos

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Extração automática de contornos de telhados de edifícios em um modelo digital de elevação, utilizando inferência Bayesiana e campos aleatórios de Markov

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Modelamento do transporte eletrônico em dispositivos moleculares

No presente trabalho, simulamos as propriedades de transporte e espectro de absorção do composto orgânico Vermelho de Etila. Este é o primeiro estudo teórico de um indicador específico de pH utilizado como nanodispositivo, com base na teoria quântica e no modelo de transporte não-difuso. A distribuição de carga ao longo da molécula é determinada através da técnica, Ab initio, como uma função de um campo elétrico externo. Baseado em um modelo de multiníveis ressonantes também calculamos a corrente como função da tensão de polarização. O acúmulo de carga e a corrente apresentam comportamento semelhante, como a condução do tipo ressonante e curvas carga-tensão e corrente-tensão assimétricas. Os principais resultados sugerem que o sistema presente poderia funcionar como um transistor molecular bi-direcional. Estendemos esta metodologia de análise para outro dispositivo molecular, mas composto de três terminais. Para este sistema, nossa descoberta principal é a resistência diferencial negativa (RDN) na carga Q como uma função do campo elétrico externo. Para explicar este efeito RDN, aplicamos um modelo capacitivo fenomenológico, também baseado em um sistema de multiníveis localizados (que podem ser os LUMOs – Lowest Unoccupied Molecular Orbital – Orbitais moleculares desocupados mais baixos). A capacitância descreve, por efeito de carregamento, a causa do bloqueio de Coulomb (BC) no transporte. Mostramos que o efeito BC dá origem a uma RDN para um conjunto adequado de parâmetros fenomenológicos como: taxa de tunelamento e energia de carregamento. O perfil da RDN obtida nas duas metodologias, ab initio e fenomenológica, estão em comum acordo.

Projeto e construção de uma câmara reverberante em escala reduzida para a caracterização acústica de materiais absorventes

Na área da Acústica, no que diz respeito às últimas décadas, tem crescido substancialmente a demanda por informações sobre a capacidade de absorção dos materiais acústicos, bem como a utilização de métodos de modelagem que permitam inferir o comportamento acústico dos sistemas reais, os quais demandam uma infraestrutura de porte, o que representa um alto investimento. Assim, visando atender a estas demandas, possibilitar o desenvolvimento de pesquisas sobre as características de absorção sonora de materiais tipicamente regionais e o desenvolvimento de aulas práticas no âmbito da acústica, tanto no curso de graduação quanto na pós-graduação, este trabalho apresenta todas as informações pertinentes ao projeto e construção de uma mini-câmara reverberante, na escala de 1: 6 de um volume de 200 m³. Além disso, é apresentada uma metodologia de qualificação e adequação do campo acústico interno, tendo por base as orientações contidas na norma ISO-354. Por outro lado, são apresentados e discutidos os resultados obtidos, a partir de ensaios realizados nesta mini-câmara, caracterizando e validando os painéis de fibra de coco, desenvolvidos pelo Grupo de Vibração e Acústica, da Universidade Federal do Pará, bem como uma simulação numérica por Raios Acústicos, tendo por base a cavidade acústica da minicâmara, para permitir a validação do modelo numérico a partir dos dados experimentais.

Different approaches on seed germination to look into global warming effects on Araucaria angustifolia

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Simulating Population Genetics of Pathogen Vectors in Changing Landscapes: Guidelines and Application with Triatoma brasiliensis

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Physical and chemical matrix effects in soil carbon quantification using laser-induced breakdown spectroscopy

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Evaluation of Brazilian sugarcane genotypes for resistance to Sugarcane mosaic virus under greenhouse and field conditions

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Investigação geoambiental de áreas contaminadas com elaboração do modelo conceitual em campo utilizando ferramentas de alta resolução (HRSC)

The Brazilian geo-environmental site characterizations usually do not provide a suitable Conceptual Site Model (CSM). Site assessments are mostly inappropriate and there is a lack of knowledge about the subsurface environment, generated by inconsistent data that will guide risk analyses and remediation projects full of uncertainties, causing delay on closing cases, inefficient remediation and higher global projects costs. The step of data collection must have high priority to develop a suitable CSM,, and it demands more effective high resolution site characterization (HRSC) tools than the traditional ones and, preferably, the decision-making have to be done in the field. This paper presents and discusses two geo-environmental site characterization results, in which the decision-making was done in the field based on high resolution site characterization (HRSC) used together with the traditional ones. These site investigations provided a significant time saving, allowed the detection of subsoil heterogeneities, a proper understanding of the subsurface environmental, and have generated a solid CSM in real-time. These CSM can subsidize remediation projects based on a more reliable data than those that would be obtained in traditional site investigations, concerned just in following the rules established by the environmental agencies.

Book Review of Cetacean Societies: Field Studies Of Whales And Dolphins Edited by I. Mann, R. C. Connor, P. L. Tyack & H. Whitehead

Studying the sociobiology and behavioral ecology of cetaceans is particularly challenging due in large part to the aquatic environment in which they live. Nevertheless, many of the obstacles traditionally associated with data gathering on tree-ranging whales, dolphins and porpoises are rapidly being overcome, and are now far less formidable. During the past several decades, marine mammal scientists equipped with innovative research methods and new technologies have taken field-based behavioral studies to a new level of sophistication. In some cases, as is true for bottlenose dolphins, killer whales, sperm whales and humpback whales, modern research paradigms in the marine environment are comparable to present-day studies of terrestrial mammal social systems. Cetacean Society stands testament to the relatively recent advances in marine mammal science, and to those scientists, past and present, whose diligence has been instrumental in shaping the discipline.

A Systematic Mapping on the Role-Permission Relationship in Role Based Access Control Models

Access control is a key component of security in any computer system. In the last two decades, the research on Role Basead Access Control Models was intense. One of the most important components of a Role Based Model is the Role-Permission Relationship. In this paper, the technique of systematic mapping is used to identify, extract and analyze many approaches applied to establish the Role-Permission Relationship. The main goal of this mapping is pointing directions of significant research in the area of Role Based Access Control Models.

ESTIMATING REACTION CONSTANTS BY AB INITIO MOLECULAR MODELING: A STUDY ON THE OXIDATION OF PHENOL TO CATECHOL AND HYDROQUINONE IN ADVANCED OXIDATION PROCESSES

Molecular modeling is growing as a research tool in Chemical Engineering studies, as can be seen by a simple research on the latest publications in the field. Molecular investigations retrieve information on properties often accessible only by expensive and time-consuming experimental techniques, such as those involved in the study of radical-based chain reactions. In this work, different quantum chemical techniques were used to study phenol oxidation by hydroxyl radicals in Advanced Oxidation Processes used for wastewater treatment. The results obtained by applying a DFT-based model showed good agreement with experimental values available, as well as qualitative insights into the mechanism of the overall reaction chain. Solvation models were also tried, but were found to be limited for this reaction system within the considered theoretical level without further parameterization.