JML- Based formal development of a Java card application for managing medical appointments

Although formal methods can dramatically increase the quality of software systems, they have not widely been adopted in software industry. Many software companies have the perception that formal methods are not cost-effective cause they are plenty of mathematical symbols that are difficult for non-experts to assimilate. The Java Modelling Language (short for JML) Section 3.3 is an academic initiative towards the development of a common formal specification language for Java programs, and the implementation of tools to check program correctness. This master thesis work shows how JML based formal methods can be used to formally develop a privacy sensitive Java application. This is a smart card application for managing medical appointments. The application is named HealthCard. We follow the software development strategy introduced by João Pestana, presented in Section 3.4. Our work influenced the development of this strategy by providing hands-on insight on challenges related to development of a privacy sensitive application in Java. Pestana’s strategy is based on a three-step evolution strategy of software specifications, from informal ones, through semiformal ones, to JML formal specifications. We further prove that this strategy can be automated by implementing a tool that generates JML formal specifications from a welldefined subset of informal software specifications. Hence, our work proves that JML-based formal methods techniques are cost-effective, and that they can be made popular in software industry. Although formal methods are not popular in many software development companies, we endeavour to integrate formal methods to general software practices. We hope our work can contribute to a better acceptance of mathematical based formalisms and tools used by software engineers. The structure of this document is as follows. In Section 2, we describe the preliminaries of this thesis work. We make an introduction to the application for managing medical applications we have implemented. We also describe the technologies used in the development of the application. This section further illustrates the Java Card Remote Method Invocation communication model used in the medical application for the client and server applications. Section 3 introduces software correctness, including the design by contract and the concept of contract in JML. Section 4 presents the design structure of the application. Section 5 shows the implementation of the HealthCard. Section 6 describes how the HealthCard is verified and validated using JML formal methods tools. Section 7 includes some metrics of the HealthCard implementation and specification. Section 8 presents a short example of how a client-side of a smart card application can be implemented while respecting formal specifications. Section 9 describes a prototype tools to generate JML formal specifications from informal specifications automatically. Section 10 describes some challenges and main ideas came acrorss during the development of the HealthCard. The full formal specification and implementation of the HealthCard smart card application presented in this document can be reached at https://sourceforge.net/projects/healthcard/.

VirtualLabs@UMa: uma plataforma personalizável para a realização de actividades experimentais

Os presentes métodos de estudo complementar fora de aulas adequam-se a um contexto mais teórico onde alunos, necessitam somente de manuais escolares ou acesso a um computador para complementar os seus estudos e atingirem os objectivos. O mesmo não se enquadra para cadeiras ou contextos mais práticos como por exemplo química ou biologia. Nestes contextos normalmente necessitamos de um laboratório ou localização específica onde se encontra as condições mínimas para a realização destes exercícios ou ensino. Actualmente existem laboratórios virtuais que vêem suplantar esta necessidade, mas os nossos estudos indicam que estes não são capazes de se adaptar a novas actividades sendo necessário desenvolver um laboratório específico para cada actividade. Neste contexto, a principal contribuição desta dissertação de mestrado é a proposta e o desenvolvimento de uma aplicação de Realidade Virtual, que seja capaz de adaptar-se facilmente às novas actividades laboratoriais de forma a personalizar as tarefas a serem realizadas pelos alunos, e que possa ser acedido através da plataforma Moodle. A aplicação desenvolvida proporciona aos alunos uma melhor percepção da forma como a actividade será realizada e prepara-os para realiza-la com sucesso num ambiente real.