An Efficient and Provably Secure Certificateless Protocol for Industrial Internet of Things

Abstract

The Internet of Things (IoT) has a wide range of applications that influence the life of people expeditiously. In recent years, IoT becomes an emerging technology in a number of fields. Different devices with divergent functionality are applied in IoT to work in several domains. These domains include smart home, smart farming, and Industrial Internet of Things (IIoT). Among these territories, the IIoT obtains more attention. In an IIoT environment, a legitimate user can control and access devices remotely. Legitimate users can access real-time data and share confidential information. The information is transmitted via public communication channel, which can be vulnerable to security attacks. In this article, we present a provably secure multifactor authenticated key agreement scheme to offer security regarding transmission of data in IIoT environment. This scheme will support the legitimate user to remotely access the sensing devices. Our presented scheme uses only symmetric cryptographic, bitwise XOR operation, and hash function to be resource-constrained. Our scheme is found to be resource efficient through communication and computation analysis. The performance analysis illustrates that the cost of computation and communication of our scheme is comparatively low as compared to other relevant schemes. The formal and informal security analysis proved that our scheme is secure and efficient as it can withstand several known adversarial attacks. We have used some cryptographic operations like XOR and hashing to provide security and privacy to legitimate entities.