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Attack Trees for Security and Privacy in Social Virtual Reality Learning Environments

Samaikya Valluripally, Aniket Gulhane, Reshmi Mitra, Khaza Anuarul Hoque, Prasad Calyam

202036 citationsDOIOpen Access PDF

Abstract

Social Virtual Reality Learning Environment (VRLE) is a novel edge computing platform for collaboration amongst distributed users. Given that VRLEs are used for critical applications (e.g., special education, public safety training), it is important to ensure security and privacy issues. In this paper, we present a novel framework to obtain quantitative assessments of threats and vulnerabilities for VRLEs. Based on the use cases from an actual social VRLE viz., vSocial, we first model the security and privacy using the attack trees. Subsequently, these attack trees are converted into stochastic timed automata representations that allow for rigorous statistical model checking. Such an analysis helps us adopt pertinent design principles such as hardening, diversity and principle of least privilege to enhance the resilience of social VRLEs. Through experiments in a vSocial case study, we demonstrate the effectiveness of our attack tree modeling with a reduction of 26% in probability of loss of integrity (security) and 80% in privacy leakage (privacy) in before and after scenarios pertaining to the adoption of the design principles.

Topics & Concepts

Computer scienceComputer securityResilience (materials science)Information privacyInformation leakageInternet privacyPhysicsThermodynamicsAdvanced Malware Detection TechniquesSecurity and Verification in ComputingNetwork Security and Intrusion Detection
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