Visible to the public Biblio

Filters: Author is Astudillo, Hernán  [Clear All Filters]
2020-01-21
Orellana, Cristian, Villegas, Mónica M., Astudillo, Hernán.  2019.  Mitigating Security Threats through the Use of Security Tactics to Design Secure Cyber-Physical Systems (CPS). Proceedings of the 13th European Conference on Software Architecture - Volume 2. :109–115.
Cyber-Physical Systems (CPS) attract growing interest from architects and attackers, given their potential effect on privacy and safety of ecosystems and users. Architectural tactics have been proposed as a design-time abstraction useful to guide and evaluate systems design decisions that address specific system qualities, but there is little published evidence of how Security Tactics help to mitigate security threats in the context of Cyber-Physical Systems. This article reports the principled derivation of architectural tactics for an actual SCADA-SAP bridge, where security was the key concern; the key inputs were (1) a well-known taxonomies of architectural tactics, and (2) a detailed record of trade-offs among these tactics. The project architects used client-specified quality attributes to identify relevant tactics in the taxonomy, and information on their trade-offs to guide top-level decisions on system global shape. We venture that all architectural tactics taxonomies should be enriched with explicit trade-offs, allowing architects to compare alternative solutions that seem equally good on principle but are not so in practice.
2017-10-27
Pedraza-García, Gilberto, Noël, René, Matalonga, Santiago, Astudillo, Hernán, Fernandez, Eduardo B..  2016.  Mitigating Security Threats Using Tactics and Patterns: A Controlled Experiment. Proccedings of the 10th European Conference on Software Architecture Workshops. :37:1–37:7.
Security Patterns and Architectural Tactics are two well-known techniques for designing secure software systems. There is little or no empirical evidence on their relative effectiveness for security threats mitigation. This study presents MUA (Misuse activities + Patterns), an extension of misuse activities that incorporates patterns, and reports on a controlled comparison of this method that incorporate these techniques for threat mitigation with regard to MAST (Methodology for Applying Security Tactics) which already incorporates tactics. A simple Tsunami Alert System design was analyzed and modified by 40 undergraduate students, and significant difference was found for security threats mitigation (averaging 3.0 for Patterns versus 1.9 for Tactics, in a 1-to-5 scale). This result is contrary to previous results with professional subjects, leading us to believe that novices benefit more of detailed advice than of high-level concepts.