Go to DBLP homepageQSKA: A Quantum Secured Privacy-Preserving Mutual Authentication Scheme for Energy Internet-Based Vehicle-to-Grid Communication
Abstract: Energy Internet is well-known nowadays for enabling bidirectional V2G communication; however, with communication and computation abilities, V2G systems become vulnerable to cyber-attacks and unauthorised access. An authentication protocol verifies the identity of an entity, establishes trust, and allows access to authorized resources while preventing unauthorized access. Research challenges for vehicle-to-grid authentication protocols include quantum security, privacy, resilience to attacks, and interoperability. The majority of authentication protocols in V2G systems are based on public-key cryptography and depend on some hard problems like integer factorization and discrete logs to guarantee security, which can be easily broken by a quantum adversary. Besides, ensuring both information security and entity privacy is equally crucial in V2G scenarios. Consequently, this work proposes a quantum-secured privacy-preserving key authentication and communication (QSKA) protocol using superdense coding and a hash function for unconditionally secure V2G communication and privacy. QSKA uses a password-based authentication mechanism, enabling V2G entities to securely transfer passwords using superdense coding. The QSKA security verification is performed in proof-assistant Coq. The security analysis and performance evaluation of the QSKA show its resiliency against well-known security attacks and reveal its enhanced reliability and efficiency with respect to state-of-the-art protocols in terms of computation, communication, and energy overhead.
External IDs:dblp:journals/tnsm/PrateekMS24
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