Language-Based Opacity Verification in Partially Observed Petri Nets through Linear Constraints

Information security is an important area of concern in modern computer-integrated systems. It involves implementing preventative measures to protect confidential data from potential vulnerabilities, such as unauthorized access, secret disclosure, modification, or destruction. Considering such threa...

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Published inMathematics (Basel) Vol. 11; no. 18; p. 3880
Main Authors Saadaoui, Ikram, Labed, Abdeldjalil, Li, Zhiwu, El-Sherbeeny, Ahmed M., Du, Huiran
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2023
Subjects
Confidentiality
Context
Data security
discrete event system
Discrete event systems
integer linear programming
Intrusion
Language
linear constraints
Linear programming
Mathematics
Methods
Opacity
Petri net
Petri nets
sensor configuration
Verification
China
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Summary:Information security is an important area of concern in modern computer-integrated systems. It involves implementing preventative measures to protect confidential data from potential vulnerabilities, such as unauthorized access, secret disclosure, modification, or destruction. Considering such threats, we investigate a particular confidentiality property called opacity, which specifies a system’s ability to cover its ‘secret’ data from being interfered with by outside observers, termed as intruders. This paper discusses language-based opacity formulation and verification in the context of discrete event systems represented by partially observed Petri nets. In this context, we identify two opacity properties, called consistency and non-secrecy; then, we exploit the mathematical characterization of a net system, to separately check each property, by specifying two feasibility problems. The proposed method is carried out for two distinct settings of a system. The first setting is centralized, where an intruder is granted complete information about the system structure but a partial observation of its behavior. The second setting is decentralized, where a group of intruders cooperates to reveal the secret language, by using a coordinator. Finally, experimental findings are given, to demonstrate the proficiency of the proposed approach.
ISSN:2227-7390
2227-7390
DOI:10.3390/math11183880