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Machado, R., M. Goulão, F. B. e Abreu, and J. Pascoal Faria, "Introduction to Special Issue: Quality in Information and Communications Technology", Innovations in Systems and Software Engineering, vol. 10, issue 1, pp. 1-2, 2014. machado2014isse.pdfWebsite
Monteiro, A. S., A. B. Almeida, M. Goulao, F. B. Abreu, and P. Sousa, "A Software Defect Report and Tracking System in an intranet", Third European Conference on Software Maintenance and Reengineering, Amsterdam, The Netherlands, IEEE Computer Society, pp. 198-201, 1999. Abstract


Monteiro, A. S., M. Goulão, F. B. Abreu, A. B. Almeida, and P. Sousa, "Controlling the Evolution of Legacy Systems Using Internet Technology: A Defect Report and Tracking System", 6th European Conference on Software Quality, Vienna, Austria, European Organization for Quality, pp. 473-483, 1999. Abstract


Monteiro, R., J. Araújo, V. Amaral, M. Goulão, and P. Patrício, "Adding Interoperability to Requirements Models", Software Quality Professional Journal, vol. 15, issue 4, pp. 16-27, 2013. Abstract

(c) American Society for Quality


Complex software systems inherently require a variety of models used in all of the development stages. A general concern is to guarantee consistency and traceability among these models. Model-driven development (MDD) can help tackle this concern. Although MDD has been mainly used in later development stages, it is relatively unexplored in requirements engineering. In this article, the authors discuss how to
leverage MDD to support consistency and traceability in requirements modeling. To illustrate this, they apply MDD to goaloriented requirements engineering (GORE) by making bidirectional mappings between two well-known GORE approaches (i* and KAOS). The result is an interoperable framework that can be used to migrate from one goal model to another through automatic model transformations, keeping consistency and traceability, so requirements engineers can make the best use of each approach.

Moreira, A., J. Araújo, A. Rashid, and M. Goulão, "Using Aspects to Model Volatile Concerns", Aspect-Oriented Requirements Engineering, Berlin Heidelberg, Springer, pp. 183-205, 2013. Abstract

A rapidly changing market leads to software systems with highly volatile requirements. In many cases, new demands in software can often be met by extending the functionality of systems already in operation. By modularizing volatile requirements that can be altered at the client’s initiative or according to market demands, we can build a stepping-stone for management of requirements change. The volatility must be managed in a way that reduces the time and costs associated with updating a system to meet the new requirements. In this chapter, we present an approach for handling volatile concerns during early life cycle software modeling. The key insight is that techniques for aspect-oriented software development can be applied to modularize volatility and to weave volatile concerns into the base software artifacts.