Bibliometric analysis of 50 years of IEEE Industrial Electronics Society publications

Tertiary education increasingly relies on publications. Arguably, Ph.D.\@ work is also increasingly produced within larger teams or with more extensive collaborations. As way to obtain an objective measure of this trend, this manuscript examines authorship trends in IEEE Industrial Electronics Society (IEEE-IES) publications for the 50-year period from 1963 to 2012. We emphasize the trends related to the number of authors and pages per publication. In order to identify several bibliometric indicators, we have analyzed 34,409 entries from IEEE-Xplore digital library for IEEE-IES publications. We provide results for two different sets of publications. Firstly, we present evidence that the number of authors and the number of pages of articles in the IEEE Transactions in Industrial Electronics (TIE) for the 50-year period are increasing per decade an average of +0.42 authors and +0.87 pages, respectively. Secondly, we provide evidence that the number of authors per article in 14 publication venues for the 25-year period from 1988 to 2012 are increasing per decade an average of +0.375 authors.This work was partially supported by FCT - Fundação para a Ciência e Tecnologia in the framework of the Project Scope UID/CEC/00319/2013, and project UID/EEA/00066/2013

Adding aspect-oriented features to MATLAB

This paper presents an approach to enrich MATLAB with aspect-oriented extensions to experiment different implementation features. The language we propose aims to configure the low-level data representation of real variables and expressions, to a specifically-tailored fixed-point data representation that benefits from a more efficient support by computing engines (e.g., DSPs, application-specific architectures, etc.) without specific hardware-based floating point units. Additionally, the approach aims to help developers to introduce handlers and monitoring features, and to configure a function with an optimized implementation.FCT under projects PPC-VM (POSI/CHS/47158/2002) and SOFTAS (POSI/EIA/ 60189/200

GeneBrowser 2: an application to explore and identify common biological traits in a set of genes

<p>Abstract</p> <p>Background</p> <p>The development of high-throughput laboratory techniques created a demand for computer-assisted result analysis tools. Many of these techniques return lists of genes whose interpretation requires finding relevant biological roles for the problem at hand. The required information is typically available in public databases, and usually, this information must be manually retrieved to complement the analysis. This process is a very time-consuming task that should be automated as much as possible.</p> <p>Results</p> <p>GeneBrowser is a web-based tool that, for a given list of genes, combines data from several public databases with visualisation and analysis methods to help identify the most relevant and common biological characteristics. The functionalities provided include the following: a central point with the most relevant biological information for each inserted gene; a list of the most related papers in PubMed and gene expression studies in ArrayExpress; and an extended approach to functional analysis applied to Gene Ontology, homologies, gene chromosomal localisation and pathways.</p> <p>Conclusions</p> <p>GeneBrowser provides a unique entry point to several visualisation and analysis methods, providing fast and easy analysis of a set of genes. GeneBrowser fills the gap between Web portals that analyse one gene at a time and functional analysis tools that are limited in scope and usually desktop-based.</p

Heat transfer to Newtonian and non-Newtonian fluids in cross-corrugated chevron-type plate heat exchangers: numerical approach

Food fluids are frequently processed in plate heat exchangers (PHEs) and usually behave as non-Newtonian fluids, this behaviour being scarcely considered for PHEs design purposes. Moreover, many food fluids processed in PHEs have a high viscosity and, therefore, data obtained in laminar flow regime is useful to practical applications. The thermal-hydraulic performance of PHEs is strongly dependent on the physical properties of the fluid and on the geometrical properties of the plates namely, on the corrugation angle and on the channel aspect ratio. The mostly widely used PHEs have corrugations of the chevron type with an area enlargement factor defined as the ratio between the effective plate area and projected plate area close to 1.17. In the present work non-isothermal laminar flows of Newtonian and power-law fluids through cross-corrugated chevron-type plate heat exchangers are studied numerically in terms of the geometry of the channels. The plates area enlargement factor was a typical one (1.17), the corrugation angle varied between 30º and 60º and the flow index behaviour, n, between 0.25 and 1. The numerical calculations were performed using the commercial finite element software package POLYFLOW®. The equations solved were the conservation of mass, momentum and energy equations for laminar incompressible flow of Newtonian and power-law fluids. The simulations were performed using channels containing seven consecutive unitary cells, since thermal and hydraulic fully developed flows were achieved in the fifth or sixth consecutive cell, as described in previous works. Coefficient K from the friction curves fRe = K compares very well with experimental and semi-theoretical data for all (seven) values of corrugation angle. Nusselt number reaches a maximum in the interior of the studied corrugation angle range, for a fixed Reynolds, Re, number. Shear thinning effects greatly affect the thermal-hydraulic performance of the plate heat exchanger

Geometries in Landscape Ecology

In the process of landscape characterization a diversified sets of geometries need to be considered. These geometries include Land Use geometry with its permanent shifting of the habitat mosaic, Natural Resources geometry depicting the available natural resources and their degree of affectation by land uses, as well as the manifold geometries associated with the different ecological patterns and processes in the landscape (target species, fragile areas, etc.) and Socio-Economical and Political geometries and how decision making at this level reflects in the other geometries. GIS spatial analysis and modelling allows the integration of these geometries with other variables, and allows the development of simulation models for the evaluation of alternative land use scenarios, assessing the sensitivity of biodiversity indicators within different scenarios, and the integrated evaluation of the effects of different development scenarios on biodiversity, economy and cultural aspects. Examples are given on the basis of an ongoing research on Large Scale Grazing Systems (LACOPE

Fine-tuning the BFOLDS fire regime module to support the assessment of fire-related functions and services in a changing Mediterranean mountain landscape

Fire simulation models are useful to advance fire research and improve landscape management. However, a better understanding of these tools is crucial to increase their reliability and expansion into research fields where their application remains limited (e.g., ecosystem services). We evaluated several components of the BFOLDS Fire Regime Module and then tested its ability to simulate fire regime attributes in a Mediterranean mountainous landscape. Based on model outputs, we assessed the landscape fire regulation capacity over time and its implications for supporting the climate regulation ecosystem service. We found that input data quality and the adjustment of fuel and fire behaviour parameters are crucial to accurately emulating key fire regime attributes. Besides, the high predictive capacity shown by BFOLDS-FRM allows to reliably inform the planning and sustainable management of fire-prone mountainous areas of the Mediterranean. Moreover, we identified and discussed modelling limitations and made recommendations to improve future model applications.A. Sil received support from the Portuguese Foundation for Science and Technology (FCT) through Ph.D. Grant SFRH/BD/132838/2017, funded by the Ministry of Science, Technology and Higher Education, and by the European Social Fund - Operational Program Human Capital within the 2014–2020 EU Strategic Framework. P.M. Fernandes contributed in the framework of the UIDB/04033/2020 project, funded by the Portuguese Foundation for Science and Technology (FCT).info:eu-repo/semantics/publishedVersio

New plates for different types of plate heat exchangers

The first patent for a plate heat exchanger was granted in 1878 to Albretch Dracke, a German inventor. The commercial embodiment of these equipments has become available in 1923. However, the plate heat exchanger development race began in the 1930’s and these gasketed plate and frame heat exchangers were mainly used as pasteurizers (e.g. for milk and beer). Industrial plate heat exchangers were introduced in the 1950’s and initially they were converted dairy models. Brazed plate heat exchangers were developed in the late 1970’s. However, copper brazed units did not start selling until the early 80’s. Nickel brazing came to market around ten years later, since copper presents compatibility problems with some streams (e.g. ammonia). All-welded and semi-welded (laser weld) plate heat exchangers were developed during the 1980’s and early 90’s. Shell and plate heat exchangers were recently introduced in the market and can withstand relatively high pressures and temperatures, as the shell and tube does. The fusion bonded plate heat exchangers (100% stainless steel) are a technology from the 21st century, these equipments being more durable than brazed plate heat exchangers. The plates are the most important elements from the different plate heat exchangers mentioned above. This paper initially introduces the gasketed plate and frame heat exchanger and common chevron-type plates. Resorting to computer fluid dynamics techniques, the complex 3D flow in cross-corrugated chevron-type plate heat exchanger passages is visualized. Recent patents related with the plates from different plate heat exchangers are then outlined

A domain-specific aspect language for transforming MATLAB programs

Aspect-oriented programming provides powerful ways to augment programs with information out of the scope of the base language while avoiding harming code readability and thus portability. MATLAB is a popular modeling/programming language that will strongly benefit of aspect-oriented programming features. For instance, MATLAB programmers could use aspects to provide information such as restrictions on allowed data types and/or values, monitoring specific aspects of the execution such as the effective dataset sizes or if a given variable ever assumes a specific value, without “polluting” the code with “check code”. This paper describes the main concepts of a domain-specific aspect language (DSAL) for specifying transformations of MATLAB programs in view of supporting optimizations by facilitating the experimentation of alternative implementations. This DSAL specifies aspect modules structured in three sections: intersections equivalent to AspectJ poincuts, actions equivalent to AspectJ advice, and conditions that control triggering of actions. Support for aspect composition strategies and aspect parameterization of tokens from the base program are also supported. We believe the described features complement and enhance MATLAB programming in substantial and valuable ways