Extended dimensions, high speeds, superior reliability, and negligible latency, increased capacity, and better QoS are some of the major objectives or challenges that must be communicated in the near future, i.e., far away 4G. To address these issues, urgent advancements in cellular network architecture are required [7]. The introduction of the fifth generation in 2020 will have an impact on a wide range of technological fields. Smaller delays, faster data transmission, and better connectivity will all be features of 5th generation. The Internet of Things will undergo significant changes. The internet of things (IoT) is a developing technology of internet-connected physical devices with the ability to collect and share large amounts of data. High speeds, maximum connectivity, ultralow latency, and universal coverage will all be available with 5th generation technology. The coverage problem in wireless sensor networks (WSNs) is interpreted by calculating the efficacy of how a web zone is observed with its sensor networks.To address these coverage issues, comprehensive coverage protocols have been devised [6]. Organizations are expected to begin establishing the number of these connected devices after considering all parameters such as increasing transmitted data speed and resolving latency issues.To solve the coverage problem and to extend the lifespan of the Internet of Things they used the parallel genetic algorithm with a huge number of connections. The algorithm should consider both node redundancy and coverage while evaluating the result of the current configuration of effective nodes.