Paper Info
Title
A model-driven approach for vulnerability evaluation of modern physical protection systems.
Abstract
Modern physical protection systems integrate a number of security systems (including procedures, equipments, and personnel) into a single interface to ensure an adequate level of protection of people and critical assets against malevolent human actions. Due to the critical functions of a protection system, the quantitative evaluation of its effectiveness is an important issue that still raises several challenges. In this paper we propose a model-driven approach to support the design and the evaluation of physical protection systems based on (a) UML models representing threats, protection facilities, assets, and relationships among them, and (b) the automatic construction of a Bayesian Network model to estimate the vulnerability of different system configurations. Hence, the proposed approach is useful both in the context of vulnerability assessment and in designing new security systems as it enables what-if and cost–benefit analyses. A real-world case study is further illustrated in order to validate and demonstrate the potentiality of the approach. Specifically, two attack scenarios are considered against the depot of a mass transit transportation system in Milan, Italy.
Year
DOI
Venue
2019
10.1007/s10270-016-0572-7
Software and System Modeling
Keywords
Field
DocType
Physical security, Vulnerability, CIP_VAM UML profile, Bayesian Network, Model transformation, Railway infrastructure system
Protection system,Model transformation,Physical security,Systems engineering,Unified Modeling Language,Vulnerability assessment,Computer science,Bayesian network,Vulnerability
Journal
Volume
Issue
ISSN
18
1
1619-1374
Citations 
PageRank 
References 
0
0.34
34
Authors
6
Name
Order
Citations
PageRank
Annarita Drago151.13
Stefano Marrone217425.49
Nicola Mazzocca367478.37
Roberto Nardone410815.07
Annarita Tedesco5132.30
valeria vittorini633933.14