Litcius/Paper detail

A robust and secure user authentication scheme based on multifactor and multi‐gateway in <scp>IoT</scp> enabled sensor networks

Ravi Kumar, Samayveer Singh, Deepti Singh, Mohit Kumar, Sukhpal Singh Gill

2023Security and Privacy14 citationsDOI

Abstract

Abstract The Internet of Things (IoT) enabled wireless sensor networks (WSNs) are used to collect data from various nodes in hostile environments, but it is essential to authenticate legitimate nodes to prevent malicious attacks. Traditional authentication schemes may be vulnerable to attack, necessitating the development of more secure authentication techniques. To address this problem, we propose a novel authentication technique for multi‐gateway IoT‐enabled WSNs that achieves effective and secure data communication. The proposed scheme is based on biological information, hash, and XOR operations, which reduce computational costs. Passwords, biometric information, and session keys are updated securely to maintain forward and backward secrecy during communication. We provide an informal security analysis of the proposed scheme and a formal security analysis of the session key using the real‐or‐random (ROR) model. We also use the AVISPA simulation toolkit to verify the proposed user authentication scheme. Experimental results demonstrate that our proposed scheme is more effective than previous multi‐factor multi‐gateway authentication protocols.

Topics & Concepts

Computer scienceComputer networkSession keyPasswordAuthentication (law)Forward secrecyChallenge–response authenticationMutual authenticationMulti-factor authenticationSession (web analytics)Scheme (mathematics)Computer securityWireless sensor networkSecure communicationAuthentication protocolPublic-key cryptographyEncryptionMathematical analysisWorld Wide WebMathematicsUser Authentication and Security SystemsAdvanced Authentication Protocols SecurityBiometric Identification and Security