Object modeling for user-centered development and user interface design: the wisdom approach

João Bernardo de Sena Esteves Falcão e Cunha

Goals Software Construction Process

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.

Geração automática de interfaces com o utilizador: uma abordagem baseada em MDA para a plataforma PHP

Os modelos e as técnicas de modelação são, hoje em dia, fundamentais na engenharia de software, devido à complexidade e sofisticação dos sistemas de informação actuais.A linguagem Unified Modeling Language (UML) [OMG, 2005a] [OMG, 2005b] tornou-se uma norma para modelação, na engenharia de software e em outras áreas e domínios, mas é reconhecida a sua falta de suporte para a modelação da interactividade e da interface com o utilizador [Nunes and Falcão e Cunha, 2000].Neste trabalho, é explorada a ligação entre as áreas de engenharia de software e de interacção humano-computador, tendo, para isso, sido escolhido o processo de desenvolvimento Wisdom [Nunes and Falcão e Cunha, 2000] [Nunes, 2001]. O método Wisdom é conduzido por casos de utilização essenciais e pelo princípio da prototipificação evolutiva, focando-se no desenho das interfaces com o utilizador através da estrutura da apresentação, com a notação Protótipos Abstractos Canónicos (PAC) [Constantine and Lockwood, 1999] [Constantine, 2003], e do comportamento da interacção com a notação ConcurTaskTrees (CTT) [Paternò, 1999] [Mori, Paternò, et al., 2004] em UML.É proposto, também, neste trabalho um novo passo no processo Wisdom, sendo definido um modelo específico, construído segundo os requisitos da recomendação Model Driven Architecture (MDA) [Soley and OMG, 2000] [OMG, 2003] elaborada pela organização Object Managent Group (OMG). Este modelo específico será o intermediário entre o modelo de desenho e a implementação da interface final com o utilizador. Esta proposta alinha o método Wisdom com a recomendação MDA, tornando possível que sejam gerados, de forma automática, protótipos funcionais de interfaces com o utilizador a partir dos modelos conceptuais de análise e desenho.Foi utilizada a ferramenta de modelação e de metamodelação MetaSketch [Nóbrega, Nunes, et al., 2006] para a definição e manipulação dos modelos e elementos propostos. Foram criadas as aplicações Model2Model e Model2Code para suportar as transformações entre modelos e a geração de código a partir destes. Para a plataforma de implementação foi escolhida a framework Hydra, desenvolvida na linguagem PHP [PHP, 2006], que foi adaptada com alguns conceitos de modo a suportar a abordagem defendida neste trabalho.

Modelação de interfaces gráficas no âmbito do ProjectIT

Orientador: Alberto Manuel Rodrigues da Silva

Meta, tracer - MOF with traceability

The following document proposes a traceability solution for model-driven development. There as been already previous work done in this area, but so far there has not been yet any standardized way for exchanging traceability information, thus the goal of this project developed and documented here is not to automatize the traceability process but to provide an approach to achieve traceability that follows OMG standards, making traceability information exchangeable between tools that follow the same standards. As such, we propose a traceability meta-model as an extension of MetaObject Facility (MOF)1. Using MetaSketch2 modeling language workbench, we present a modeling language for traceability information. This traceability information then can be used for tool cooperation. Using Meta.Tracer (our tool developed for this thesis), we enable the users to establish traceability relationships between different traceability elements and offer a visualization for the traceability information. We then demonstrate the benefits of using a traceability tool on a software development life cycle using a case study. We finalize by commenting on the work developed.