Towards a high precision in AMI-based smart meters and new technologies in the smart grid

Abstract

Due to its widespread serviceability, the sensor network receives considerable interest. Within smart cities featuring multiple, collection and transmission, the function of the wireless sensor system is generally significant. Effective evaluation architecture is an automated process for monitoring individual consumers' power usage. The required information was typically transmitted through Wireless LAN (WLAN) media. In addition to gathering and detecting, this is one of the main characteristics of an Advanced Meter Infrastructures (AMI) network. If the connection and node will be in the right condition, effective communication is feasible. In most of the existing methods, network congestion and occurrence of fault in continuous communication are main drawbacks. To overcome these limitations, the Grid Topological Network Architecture to give an efficient route if there is a fault-tolerance networking system is presented in this work. The experiment exhibits improvement based on the energy usage and package distribution concerning the reduced and highly compressed Networking Routing Algorithm and the Ad-Hoc On-Demand Vector Method. From the results it is observed that delivery loss, mean response and delay response is lowered by using proposed method and it is proven to be efficient as compared to the exiting methods. Delays, dependability, expandability, integration, flexibility, delivery prioritization, accessibility, ease of application, and tracking of the proposed method are compared with the existing methods like RPL, AODV and it is proved that the proposed scheme exhibits better performance.