ABSTRACT
The incorporation of quantum computing within the framework of the Internet of Things (IoT) signifies a fundamental transformation in the realm of data processing and security pertaining to interconnected devices. This study examines the profound influence of quantum computing on IoT, with a specific emphasis on its capacity to fundamentally alter data management practices and bolster security protocols. Quantum computing, renowned for its remarkable capacity to execute intricate computations at unparalleled velocities, presents notable strides in computational capability and effectiveness. The significance of this matter is particularly pronounced within IoT environment, because a multitude of devices collect and exchange substantial volumes of data. This study explores the utilization of quantum algorithms for the efficient processing, analysis, and security of data, specifically focusing on the challenges faced by classical computing in managing the vast scale and intricate nature of IoT networks. Furthermore, this paper examines the distinctive features of quantum cryptography, which offer resilient security measures against growing cyber threats. This is a crucial factor within the context of IoT environment. This study also investigates the obstacles and possible remedies involved in the integration of quantum computing with IoT devices, encompassing constraints related to hardware and scalability. This detailed analysis elucidates the potential for quantum computing to bring about transformation in the realm of IoT networks, hence augmenting their capabilities and security. Consequently, this development paves the way for the emergence of more advanced, efficient, and secures linked devices across diverse sectors. To proposed the algorithm with the combination of adiabatic quantum computing (AQC) and quantum key distribution (QKD).
