Model-based Security Engineering
This event took place on Tuesday 25 April 2006 at 12:30
Dr Jan Jurjens Technical University of Munich
The current state of the art in security-critical software is far from satisfactory: New security vulnerabilities are detected on an almost daily basis. To improve this situation, we develop techniques and tools that perform an automated analysis of software artefacts for security requirements (such as secrecy, integrity, and authenticity). These artefacts include specifications in the Unified Modeling Language (UML), annotated source code, and run-time data such as security permissions. The security analysis techniques make use of model-checkers and automated theorem provers for first-order logic. We give examples for security flaws found in industrial software using our tools.
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This event took place on Tuesday 25 April 2006 at 12:30
The current state of the art in security-critical software is far from satisfactory: New security vulnerabilities are detected on an almost daily basis. To improve this situation, we develop techniques and tools that perform an automated analysis of software artefacts for security requirements (such as secrecy, integrity, and authenticity). These artefacts include specifications in the Unified Modeling Language (UML), annotated source code, and run-time data such as security permissions. The security analysis techniques make use of model-checkers and automated theorem provers for first-order logic. We give examples for security flaws found in industrial software using our tools.
Download PowerPoint presentation (3.4Mb ZIP file)
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Our research in the Semantic Web area looks at the potentials of fusing together advances in a range of disciplines, and applying them in a systemic way to simplify the development of intelligent, knowledge-based web services and to facilitate human access and use of knowledge available on the web. For instance, we are exploring ways in which tnatural language interfaces can be used to facilitate access to data distributed over different repositories. We are also developing infrastructures to support rapid development and deployment of semantic web services, which can be used to create web applications on-the-fly. We are also investigating ways in which semantic technology can support learning on the web, through a combination of knowledge representation support, pedagogical theories and intelligent content aggregation mechanisms. Finally, we are also investigating the Semantic Web itself as a domain of analysis and performing large scale empirical studies to uncover data about the concrete epistemologies which can be found on the Semantic Web. This exciting new area of research gives us concrete insights on the different conceptualizations that are present on the Semantic Web by giving us the possibility to discover which are the most common viewpoints, which viewpoints are mutually inconsistent, to what extent different models agree or disagree, etc...
Our aim is to be at the forefront of both theoretical and practical developments on the Semantic Web not only by developing theories and models, but also by building concrete applications, for a variety of domains and user communities, including KMi and the Open University itself.
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