Abstract

The use of Internet of Things (IoT) devices in Artificial Intelligence of Things (AIoT) applications has generated significant interest in recent years. AIoT security comes under cybersecurity, which focuses on protecting cloud-based, internet-connected hardware, also known as IoT devices and the networks they are connected to. As the waste of energy is one of the major issues in the world each day, we waste a lot of energy through various sources. A certain light-controlling mechanism can be implemented to reduce the unnecessary power consumption load over the sources. In this paper, a secure artificial Intelligence of Things (AIoT)-enabled authenticated key agreement technique for a smart living environment is proposed (in short, SAIoT-SL). The unique feature of the proposed SAIoT-SL is that it provides secure data transmissions throughout the communication of servers (i.e., cloud servers), users, and sensors. The conducted security analysis and formal security verification (through Scyther tool) prove the resilience of the proposed SAIoT-SL against various potential attacks. In the end, a practical implementation of the proposed SAIoT-SL is also provided to check its impact on real-world scenarios. In the conducted comparative study, it has been identified that the proposed SAIoT-SL outperformed the other existing techniques.