Goal-directed requirements acquisition
6IWSSD Selected Papers of the Sixth International Workshop on Software Specification and Design
Feature Interactions in Telecommunications III
Feature Interactions in Telecommunications III
Feature Interactions in Telecommunications and Software Systems V
Feature Interactions in Telecommunications and Software Systems V
Feature Interactions in Telecommunications and Software Systems VI
Feature Interactions in Telecommunications and Software Systems VI
Acquiring COTS Software Selection Requirements
IEEE Software
Intelligent Support for Selection of COTS Products
Revised Papers from the NODe 2002 Web and Database-Related Workshops on Web, Web-Services, and Database Systems
Defining factors, goals and criteria for reusable component evaluation
CASCON '96 Proceedings of the 1996 conference of the Centre for Advanced Studies on Collaborative research
Goal-Oriented Requirements Engineering: A Guided Tour
RE '01 Proceedings of the Fifth IEEE International Symposium on Requirements Engineering
DesCOTS: A Software System for Selecting COTS Components
EUROMICRO '04 Proceedings of the 30th EUROMICRO Conference
COSTUME: A Method for Building Quality Models for Composite COTS-Based Software Systems
QSIC '04 Proceedings of the Quality Software, Fourth International Conference
Using Quality Models in Software Package Selection
IEEE Software
Using goals and quality models to support the matching analysis during COTS selection
ICCBSS'05 Proceedings of the 4th international conference on COTS-Based Software Systems
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In the process of selecting Commercial Off-The-Shelf (COTS) products, goals may be used to define the selection criteria. Goals can range from high-level strategic objectives to low-level technical objectives. During the process of defining these goals, high-level objectives are decomposed into more refined objectives at lower levels. However, it is important not only to define the decomposition links, but also to define how different technical goals interact. Defining such interaction is important to avoid unexpected system behaviour when a negative interaction scenario occurs between two goals. Moreover, defining these interactions at an early stage will prevent high repair costs at later stages. In this paper, we describe the application of an approach called IRIS to identify interactions among goals during COTS selection. As a proof of concept, we present an example of an e-commerce system to illustrate the proposed work.