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Publicações

2015

Stability Analysis for Operation of DG Units in Smart Grids

Autores
Pouresmaeil, E; Shaker, HR; Mehrasa, M; Shokridehaki, MA; Rodrigues, EMG; Catalao, JPS;

Publicação
2015 IEEE 5TH INTERNATIONAL CONFERENCE ON POWER ENGINEERING, ENERGY AND ELECTRICAL DRIVES (POWERENG)

Abstract
This paper presents a multifunction control strategy for the stable operation of Distributed Generation (DG) units during grid integration. The proposed control model is based on Direct Lyapunov Control (DLC) theory and provides a stable region for the appropriate operation of DG units during grid integration. Using DLC technique in DG technology can provide the continuous injection of maximum active power in fundamental frequency from the DG source to the grid, compensating all reactive power and harmonic current components of grid-connected loads through the integration of DG link into the grid. Application of this concept can guarantee to reduce the stress on the grid during the energy demand peak. Simulation results are presented to demonstrate the proficiency and performance of the proposed DLC technique in DG technology.

2015

How to combine different microsimulation tools to assess the environmental impacts of road traffic? Lessons and directions

Autores
Fontes, T; Pereira, SR; Fernandes, P; Bandeira, JM; Coelho, MC;

Publicação
TRANSPORTATION RESEARCH PART D-TRANSPORT AND ENVIRONMENT

Abstract
In the last decades, traffic microsimulation platforms have a growing complexity allowing a detailed description of vehicle traffic dynamics in a second-by-second basis. However, to project spatially their outputs, some precautions must be followed. Therefore, we analyze some variables used in the microscopic traffic models which have a high impact on further applications, especially when a spatial projection is required. To assess these objectives, a microsimulation framework which includes traffic and emission models was defined to characterize traffic flows and to evaluate vehicular emissions. This general methodology was then applied in a European medium sized city using two scenarios: (i) considering a Lagrangian approach and (ii) using an Eulerian approach of the simulation road traffic platform. The Lagrangian approach shows that if we have long links (some hundred meters, e.g. >500 m), we lose the spatial detail on emissions. On the other hand, using the Eulerian approach to define very small links (some few meters, e.g. <30 m), a significant statistic representation of traffic dynamics, in that link, was not obtained, particularly in areas with low traffic flow. The latter situation can occur because the vehicle speed can be high enough that did not allow recording any information in that link, even considering a high time resolution analysis (second-by-second). Thus, a non-linear trend of the error is identified when such data are analyzed geographically. Accordingly, depending on the use of those microsimulation tools, we identify some best practices related with the traffic model design that must be followed to minimize those errors.

2015

Finite element analysis of pectus carinatum surgical correction via a minimally invasive approach

Autores
Neves, SC; Pinho, ACM; Fonseca, JC; Rodrigues, NF; Henriques Coelho, T; Correia Pinto, J; Vilaca, JL;

Publicação
COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING

Abstract
Pectus carinatum (PC) is a chest deformity caused by a disproportionate growth of the costal cartilages compared to the bony thoracic skeleton, pulling the sternum towards, which leads to its protrusion. There has been a growing interest on using the 'reversed Nuss' technique as a minimally invasive procedure for PC surgical correction. A corrective bar is introduced between the skin and the thoracic cage and positioned on top of the sternum highest protrusion area for continuous pressure. Then, it is fixed to the ribs and kept implanted for about 2-3years. The purpose of this work was to (a) assess the stresses distribution on the thoracic cage that arise from the procedure, and (b) investigate the impact of different positioning of the corrective bar along the sternum. The higher stresses were generated on the 4th, 5th and 6th ribs backend, supporting the hypothesis of pectus deformities correction-induced scoliosis. The different bar positioning originated different stresses on the ribs' backend. The bar position that led to lower stresses generated on the ribs backend was the one that also led to the smallest sternum displacement. However, this may be preferred, as the risk of induced scoliosis is lowered.

2015

IMC, ingestão energética e nutricional da população portuguesa adulta

Autores
Pinhão, Sílvia; Poinhos, Rui; Afonso, Cláudia; Franchini, Bela; Oliveira, Bruno; Teixeira, Vitor Hugo; Moreira, Pedro; Durão, C.; Pinho, Olívia; Reis, J.P. Lima; Veríssimo, M.T.; Almeida, Maria Daniel Vaz de; Correia, Flora;

Publicação

Abstract
[abstract]

2015

Integrated modeling of road environments for driving simulation

Autores
Campos, C; Leitao, JM; Coelho, AF;

Publicação
GRAPP 2015 - 10th International Conference on Computer Graphics Theory and Applications; VISIGRAPP, Proceedings

Abstract
Virtual environments for driving simulations aimed to scientific purposes require three-dimensional road models that must obey to detailed standards of specification and realism. The creation of road models with this level of quality requires previous definition of the road networks and the road paths. Each road path is usually obtained through the dedicated work of roadway design specialists, resulting in a long time consuming process. The driving simulation for scientific purposes also requires a semantic description of all elements within the environment in order to provide the parameterization of actors during the simulation and the production of simulation reports. This paper presents a methodology to automatically generate road environments suitable to the implementation of driving simulation experiences. This methodology integrates every required step for modelling road environments, from the determination of interchanges nodes to the generation of the geometric and the semantic models. The human supervisor can interact with the model generation process at any stage, in order to meet every specific requirement of the experimental work. The proposed methodology reduces workload involved in the initial specification of the road network and significantly reduces the use of specialists for preparing the road paths of all roadways. The generated semantic description allows procedural placing of actors in the simulated environment. The models are suitable for conducting scientific work in a driving simulator. Copyright

2015

Estudo e desenvolvimento de um sistema de refrigeração para transporte adequado de órgãos para transplante

Autores
Thadeu Vinicius de Brito Pupato; Roberto Ribeiro Neli; Thiago Henrique Pincinato;

Publicação
Anais do XX Seminário de Iniciação Científica e Tecnológica da UTFPR

Abstract

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