Optimized blockchain network model for 6G cellular vehicle‐to‐everything communication

Abstract

AbstractRoad safety of electric cars has required large and fast data flow. The six‐generation (6G) networks that provide hyper‐speed, ultra‐reliable, and minimal delay meet the requirements. Data reliability can be supported with popular blockchain technology, which is still widely accepted as a decentralized data management system. This article used an optimum path with the highest signal‐to‐noise constraints for the proposed algorithms. The essential requirement of error‐free data transmission for high‐speed and large data has been successfully implemented. Three‐stage implementations are suggested. The edge computers at the partners are used as storage to resolve the first level. A C‐V2X network solution is used to resolve the second level of economic activity. A two‐stage optimization strategy is used to consider the last level of high network transaction levels. The results of the newly introduced optimization algorithms are simulated and contrasted with those of a traditional, time‐consuming step‐by‐step calculation method. The introduced algorithms tested with real‐time experimental signal‐to‐noise ratio (SNR) and bit error rate (BER) values, giving successful results.