891 resultados para Computer aided software engineering
Resumo:
A forum is a valuable tool to foster reflection in an in-depth discussion; however, it forces the course mediator to continually pay close attention in order to coordinate learners` activities. Moreover, monitoring a forum is time consuming given that it is impossible to know in advance when new messages are going to be posted. Additionally, a forum may be inactive for a long period and suddenly receive a burst of messages forcing forum mediators to frequently log on in order to know how the discussion is unfolding to intervene whenever it is necessary. Mediators also need to deal with a large amount of messages to identify off-pattern situations. This work presents a piece of action research that investigates how to improve coordination support in a forum using mobile devices for mitigating mediator`s difficulties in following the status of a forum. Based on summarized information extracted from message meta-data, mediators consult visual information summaries on PDAs and receive textual notifications in their mobile phone. This investigation revealed that mediators used the mobile-based coordination support to keep informed on what is taking place within the forum without the need to log on their desktop computer. (C) 2009 Elsevier Ltd. All rights reserved.
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This paper reports an expert system (SISTEMAT) developed for structural determination of diverse chemical classes of natural products, including lignans, based mainly on 13C NMR and 1H NMR data of these compounds. The system is composed of five programs that analyze specific data of a lignan and shows a skeleton probability for the compound. At the end of analyses, the results are grouped, the global probability is computed, and the most probable skeleton is exhibited to the user. SISTEMAT was able to properly predict the skeletons of 80% of the 30 lignans tested, demonstrating its advantage during the structural elucidation course in a short period of time.
Resumo:
One of the first questions to consider when designing a new roll forming line is the number of forming steps required to produce a profile. The number depends on material properties, the cross-section geometry and tolerance requirements, but the tool designer also wants to minimize the number of forming steps in order to reduce the investment costs for the customer. There are several computer aided engineering systems on the market that can assist the tool designing process. These include more or less simple formulas to predict deformation during forming as well as the number of forming steps. In recent years it has also become possible to use finite element analysis for the design of roll forming processes. The objective of the work presented in this thesis was to answer the following question: How should the roll forming process be designed for complex geometries and/or high strength steels? The work approach included both literature studies as well as experimental and modelling work. The experimental part gave direct insight into the process and was also used to develop and validate models of the process. Starting with simple geometries and standard steels the work progressed to more complex profiles of variable depth and width, made of high strength steels. The results obtained are published in seven papers appended to this thesis. In the first study (see paper 1) a finite element model for investigating the roll forming of a U-profile was built. It was used to investigate the effect on longitudinal peak membrane strain and deformation length when yield strength increases, see paper 2 and 3. The simulations showed that the peak strain decreases whereas the deformation length increases when the yield strength increases. The studies described in paper 4 and 5 measured roll load, roll torque, springback and strain history during the U-profile forming process. The measurement results were used to validate the finite element model in paper 1. The results presented in paper 6 shows that the formability of stainless steel (e.g. AISI 301), that in the cold rolled condition has a large martensite fraction, can be substantially increased by heating the bending zone. The heated area will then become austenitic and ductile before the roll forming. Thanks to the phenomenon of strain induced martensite formation, the steel will regain the martensite content and its strength during the subsequent plastic straining. Finally, a new tooling concept for profiles with variable cross-sections is presented in paper 7. The overall conclusions of the present work are that today, it is possible to successfully develop profiles of complex geometries (3D roll forming) in high strength steels and that finite element simulation can be a useful tool in the design of the roll forming process.
Resumo:
The Grid is a large-scale computer system that is capable of coordinating resources that are not subject to centralised control, whilst using standard, open, general-purpose protocols and interfaces, and delivering non-trivial qualities of service. In this chapter, we argue that Grid applications very strongly suggest the use of agent-based computing, and we review key uses of agent technologies in Grids: user agents, able to customize and personalise data; agent communication languages offering a generic and portable communication medium; and negotiation allowing multiple distributed entities to reach service level agreements. In the second part of the chapter, we focus on Grid service discovery, which we have identified as a prime candidate for use of agent technologies: we show that Grid-services need to be located via personalised, semantic-rich discovery processes, which must rely on the storage of arbitrary metadata about services that originates from both service providers and service users. We present UDDI-MT, an extension to the standard UDDI service directory approach that supports the storage of such metadata via a tunnelling technique that ties the metadata store to the original UDDI directory. The outcome is a flexible service registry which is compatible with existing standards and also provides metadata-enhanced service discovery.
Resumo:
A crescente complexidade das aplicações, a contínua evolução tecnológica e o uso cada vez mais disseminado de redes de computadores têm impulsionado os estudos referentes ao desenvolvimento de sistemas distribuídos. Como estes sistemas não podem ser facilmente desenvolvidos com tecnologias de software tradicionais por causa dos limites destas em lidar com aspectos relacionados, por exemplo, à distribuição e interoperabilidade, a tecnologia baseada em agentes parece ser uma resposta promissora para facilitar o desenvolvimento desses sistemas, pois ela foi planejada para suportar estes aspectos, dentre outros. Portanto, é necessário também que a arquitetura dos ambientes de desenvolvimento de software (ADS) evolua para suportar novas metodologias de desenvolvimento que ofereçam o suporte necessário à construção de softwares complexos, podendo também estar integrada a outras tecnologias como a de agentes. Baseada nesse contexto, essa dissertação tem por objetivo apresentar a especificação de uma arquitetura de um ADS distribuído baseada em agentes (DiSEN – Distributed Software Engineering Environment). Esse ambiente deverá fornecer suporte ao desenvolvimento de software distribuído, podendo estar em locais geograficamente distintos e também os desenvolvedores envolvidos poderão estar trabalhando de forma cooperativa. Na arquitetura proposta podem ser identificadas as seguintes camadas: dinâmica, que será responsável pelo gerenciamento da (re)configuração do ambiente em tempo de execução; aplicação, que terá, entre os elementos constituintes, a MDSODI (Metodologia para Desenvolvimento de Software Distribuído), que leva em consideração algumas características identificadas em sistemas distribuídos, já nas fases iniciais do projeto e o repositório para armazenamento dos dados necessários ao ambiente; e, infra-estrutura, que proverá suporte às tarefas de nomeação, persistência e concorrência e incorporará o canal de comunicação. Para validar o ambiente será realizada uma simulação da comunicação que pode ser necessária entre as partes constituintes do DiSEN, por meio da elaboração de diagramas de use case e de seqüência, conforme a notação MDSODI. Assim, as principais contribuições desse trabalho são: (i) especificação da arquitetura de um ADS distribuído que poderá estar distribuído geograficamente; incorporará a MDSODI; proporcionará desenvolvimento distribuído; possuirá atividades executadas por agentes; (ii) os agentes identificados para o DiSEN deverão ser desenvolvidos obedecendo ao padrão FIPA (Foundation for Intelligent Physical Agents); (iii) a identificação de um elemento que irá oferecer apoio ao trabalho cooperativo, permitindo a integração de profissionais, agentes e artefatos.
Resumo:
A tecnologia de processos de desenvolvimento de software ´e uma importante área de estudo e pesquisas na Engenharia de Software que envolve a construção de ferramentas e ambientes para modelagem, execução, simulação e evolução de processos de desenvolvimento de software, conhecidos como PSEEs (do inglês: Process-Centered Software Engineering Environments). Um modelo de processo de software é uma estrutura complexa que relaciona elementos gerenciáveis (i.e. artefatos, agentes, e atividades) que constituem o processo de software. Esta complexidade, geralmente, dificulta a percepção e entendimento do processo por parte dos profissionais envolvidos, principalmente quando estes profissionais têm acesso apenas a uma visão geral do modelo. Desta forma, há necessidade de mecanismos para visualização e acompanhamento dos processos, fornecendo informações adequadas aos diferentes estados, abstraindo as informações relevantes tanto as fases presentes no processo de desenvolvimento quanto ao agente envolvido, além de facilitar a interação e o entendimento humano sobre os elementos do processo. Estudos afirmam que a maneira como são apresentadas as informações do modelo de processo pode influenciar no sucesso ou não do desenvolvimento do software, assim como facilitar a adoção da tecnologia pela indústria de software. Este trabalho visa contribuir nas pesquisas que buscam mecanismos e cientes para a visualização de processos de software apresentando a abordagem APSEE-Monitor destinada ao apoio a visualização de processos de software durante a sua execução. O principal objetivo desta pesquisa é apresentar um modelo formal de apoio a visualização de processos capaz de extrair dados de processos e organizá-los em sub-domínios de informações de interesse do gerente de processos. Neste trabalho aplica-se o conceito de múltiplas perspectivas como uma estratégia viável para a abstração e organização das informações presentes no modelo de processos. A solução proposta destaca-se por estender a definção original de perspectivas e fornecer uma estratégia de extração dos dados através de uma especificação formal utilizando o paradigma PROSOFT-Algébrico. Além disso, o trabalho apresenta um conjunto de requisitos relativos a interação entre gerentes de processos e PSEEs, a definição formal das perspectivas, uma gramática que define a linguagem de consulta aos processos, e um protótipo da aplicação.
Resumo:
Generalized hyper competitiveness in the world markets has determined the need to offer better products to potential and actual clients in order to mark an advantagefrom other competitors. To ensure the production of an adequate product, enterprises need to work on the efficiency and efficacy of their business processes (BPs) by means of the construction of Interactive Information Systems (IISs, including Interactive Multimedia Documents) so that they are processed more fluidly and correctly.The construction of the correct IIS is a major task that can only be successful if the needs from every intervenient are taken into account. Their requirements must bedefined with precision, extensively analyzed and consequently the system must be accurately designed in order to minimize implementation problems so that the IIS isproduced on schedule and with the fewer mistakes as possible. The main contribution of this thesis is the proposal of Goals, a software (engineering) construction process which aims at defining the tasks to be carried out in order to develop software. This process defines the stakeholders, the artifacts, and the techniques that should be applied to achieve correctness of the IIS. Complementarily, this process suggests two methodologies to be applied in the initial phases of the lifecycle of the Software Engineering process: Process Use Cases for the phase of requirements, and; MultiGoals for the phases of analysis and design. Process Use Cases is a UML-based (Unified Modeling Language), goal-driven and use case oriented methodology for the definition of functional requirements. It uses an information oriented strategy in order to identify BPs while constructing the enterprise’s information structure, and finalizes with the identification of use cases within the design of these BPs. This approach provides a useful tool for both activities of Business Process Management and Software Engineering. MultiGoals is a UML-based, use case-driven and architectural centric methodology for the analysis and design of IISs with support for Multimedia. It proposes the analysis of user tasks as the basis of the design of the: (i) user interface; (ii) the system behaviour that is modeled by means of patterns which can combine Multimedia and standard information, and; (iii) the database and media contents. This thesis makes the theoretic presentation of these approaches accompanied with examples from a real project which provide the necessary support for the understanding of the used techniques.
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The domain of Knowledge Discovery (KD) and Data Mining (DM) is of growing importance in a time where more and more data is produced and knowledge is one of the most precious assets. Having explored both the existing underlying theory, the results of the ongoing research in academia and the industry practices in the domain of KD and DM, we have found that this is a domain that still lacks some systematization. We also found that this systematization exists to a greater degree in the Software Engineering and Requirements Engineering domains, probably due to being more mature areas. We believe that it is possible to improve and facilitate the participation of enterprise stakeholders in the requirements engineering for KD projects by systematizing requirements engineering process for such projects. This will, in turn, result in more projects that end successfully, that is, with satisfied stakeholders, including in terms of time and budget constraints. With this in mind and based on all information found in the state-of-the art, we propose SysPRE - Systematized Process for Requirements Engineering in KD projects. We begin by proposing an encompassing generic description of the KD process, where the main focus is on the Requirements Engineering activities. This description is then used as a base for the application of the Design and Engineering Methodology for Organizations (DEMO) so that we can specify a formal ontology for this process. The resulting SysPRE ontology can serve as a base that can be used not only to make enterprises become aware of their own KD process and requirements engineering process in the KD projects, but also to improve such processes in reality, namely in terms of success rate.
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Humans can perceive three dimension, our world is three dimensional and it is becoming increasingly digital too. We have the need to capture and preserve our existence in digital means perhaps due to our own mortality. We have also the need to reproduce objects or create small identical objects to prototype, test or study them. Some objects have been lost through time and are only accessible through old photographs. With robust model generation from photographs we can use one of the biggest human data sets and reproduce real world objects digitally and physically with printers. What is the current state of development in three dimensional reconstruction through photographs both in the commercial world and in the open source world? And what tools are available for a developer to build his own reconstruction software? To answer these questions several pieces of software were tested, from full commercial software packages to open source small projects, including libraries aimed at computer vision. To bring to the real world the 3D models a 3D printer was built, tested and analyzed, its problems and weaknesses evaluated. Lastly using a computer vision library a small software with limited capabilities was developed.