Abstract
Recently, damages such as internal system intrusion, network and device vulnerability attacks, malicious code infection, and information leakage due to security attacks are increasing within the smart grid environment. Detailed and dynamic access control must be implemented to enable the power system in the smart grid environment to respond to such attacks. Dynamic and partial delegation must be available, and permission role restrictions must be considered for dynamic access control when delegating a role because of changes in power resource manager authority. In this paper, we propose an intelligent access control framework that can recognize security context by analyzing security vulnerabilities for security management of power systems. The intelligent access control framework is designed as a framework that enables collaboration within the smart grid environment, and a system administrator is designed to transmit access control policy information required between the power service principal and the agent. In addition, an experiment is conducted for the control inference of security context ontology-based access, attack detection inference of the security context awareness service, and the attack response of the intelligent integrated access control system. Experimental results show that the precision of security context ontology-based access control inference is 70%, and the attack response rate of integrated access control is 72.8%.
Highlights
Sustainability 2021, 13, 4124 access control framework was designed as a framework that enables collaboration within the smart grid environment, and a system administrator was designed to transmit access control policy information required between the power service principal and the agent [7,8]
The intelligent integrated access control system of the power system was designed as a framework that enables collaboration within the smart grid environment, and the system administrator was designed to deliver access control policy information required between the power service principal and the agent
Attacks, target specific systems, and have a wide attack range and cause significant damage. Countermeasures against such large-scale attacks necessitate a technology that can determine the security context type by analyzing security events occurring in numerous security systems, e.g., firewalls, vaccines, intrusion detection systems, and intrusion prevention systems within the power system. Such a comprehensive determination is currently performed by system administrators and security experts, intelligent integrated security technology is necessitated to achieve rapid responses
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. An intelligent access control framework is proposed to understand the security context by analyzing the security vulnerability of the power system for the security management of the power system [4,5,6]. Sustainability 2021, 13, 4124 access control framework was designed as a framework that enables collaboration within the smart grid environment, and a system administrator was designed to transmit access control policy information required between the power service principal and the agent [7,8].
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