Design and Implementation of IoT based Dual Axis Solar Tracking System

Abstract

Web of Things (WoT) innovations, along economies of scale and advances in system, programming, and company improvements, have speeded up the blast of related items throughout the Internet. A related article may be managed on-line through an IoT level and may transfer, get, and procedure exclusive and modified parameters. This study has reported about the IoT improvements to advocate a primary and cost efficient IoT application to display and manipulate first rate single-pivot solar powered tracker to perform execution assessment. The proposed model includes pre-programmed alerts that can be sent to a remote customer via smartphone or e-mail. The proposed model is a low-cost and simple-to-use system and programming, as well as a web-based model. The design components of IoT include solar powered trackers. In addition, a version of IoT primarily based on fully solar powered trackers has been developed and tested. The results show how daylight-based tracker data can be sent successfully and correctly. This can be easily checked on the web, as well as how the solar powered trackers from the NodeMCU device. With the help of this proposed concept, the orientation of the solar power will be continuously monitored and tracked to improve the energy conversion efficiency.