A Novel Chaotic QKD based Homomorphic CPABE authentication protocol in Dynamic Wireless Communication Networks

Abstract

With the exponential growth of network bandwidth and computational resources, data security has become one of the interesting research area in wireless communication networks. Authentication  is considered as a prime concern in the field of energy-constrained wireless sensor networks due to its wide domain  applications. Extenssive amount of research works have been carried out to develop more secure authentication system in order to achieve confidentiality and authenticity constraints. Many authentication protocols are mainly depend upon security,  scalability, communication constraints  and computation overhead. Also, most of the traditional authentication models are failed to authenticate node behavior using integrity, secured key distribution and encryption models. Therefore, there is requirement of very strong authentication protocols in order to provide extended security to the WSN systems. To overcome these issues, a novel quantum chaotic key distribution (QKD) based homomorphic CPABE model was implemented in wireless communication networks. Quantum key Distribution (QKD) is required to improve the security of communication systems.  The major objective of quantum key distribution is to generate a key that takes part in encryption.  Experimental results proved that the proposed model has high computation speed, storage overhead and secured key distribution compared to traditional wireless authentication models.