Abstract
Any wireless or open space network’s biggest problem is security. When the network has limited coverage and high-speed mobility, communication becomes even more crucial. One similar network with a lower sensing limit and designed for indoor use is WPAN. In order to increase the communication’s dependability and security, this paper suggests a quantum-inspired encoded communication. The work model is established for a highly mobile, randomly scattered WPAN network. The initial step of this model performs node-level characterization under the parameters of coverage, stability, and load. Based on this analysis, the initial population sequence is generated and based on this generation, communication can be performed. The genetic model applied on this population pool is processed to generate the effective communication pair. After generating the population pair, quantum technique is applied to capture the characteristics of the node pair to generate the key. Finally, the data is encoded using the quantum key-based SHA. Over the network, this encoded communication is carried out.
