Building problem domain ontology from security requirements in regulatory documents
Proceedings of the 2006 international workshop on Software engineering for secure systems
Towards a Requirements-Driven Workbench for Supporting Software Certification and Accreditation
SESS '07 Proceedings of the Third International Workshop on Software Engineering for Secure Systems
Ontology-supported quality assurance for component-based systems configuration
Proceedings of the 6th international workshop on Software quality
Visual Analytics for Requirements-driven Risk Assessment
REV '07 Proceedings of the Second International Workshop on Requirements Engineering Visualization
Feature-oriented nonfunctional requirement analysis for software product line
Journal of Computer Science and Technology
A trust-based approach to estimating the confidence of the software system in open environments
Journal of Computer Science and Technology
Governance Requirements Extraction Model for Legal Compliance Validation
RELAW '09 Proceedings of the 2009 Second International Workshop on Requirements Engineering and Law
Discovering Multidimensional Correlations among Regulatory Requirements to Understand Risk
ACM Transactions on Software Engineering and Methodology (TOSEM)
Privacy analysis using ontologies
Proceedings of the second ACM conference on Data and Application Security and Privacy
KSEM'11 Proceedings of the 5th international conference on Knowledge Science, Engineering and Management
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Software-intensive systems are systems of systems that rely on complex interdependencies among themselves as well as with their operational environment to satisfy the required behavior. As we integrate such systems to create information infrastructures that are critical to the quality of our lives and the businesses they support, the need to effectively predict, control and evolve their behavior is ever increasing. To deal with their complexity, an important first step is to understand and model software-intensive systems, their environments and the interdependencies among them at different levels of abstractions from multiple dimensions. In this paper, we present an Ontology-based Active Requirements Engineering (Onto-ActRE [onto-..kt..r]) framework that adopts a mixed-initiative approach to elicit, represent and analyze the diversity of factors associated with software-intensive systems. The Onto- ActRE framework integrates various RE modeling techniques with complementary semantics in a unifying ontological engineering process. We also present examples from the practice of our framework with appropriate tool support that combines theoretical and practical aspects.