ISSN: 2182-2069 (printed) / ISSN: 2182-2077 (online)
Control System Design for Failure Starting of Diesel Power Block for Cell on Wheels Communication Tower based on Cloud Service System
Monitoring diesel power blocks is crucial for the management of energy utilities and telecommunication firms, as it guarantees the continuous functionality of their cellular towers and base transmitter stations. Remote monitoring and control are more advantageous than on-site monitoring due to their superior efficiency in terms of time and resources. This study presents a solution to the issue of monitoring and controlling diesel power blocks on-site. The proposed technique involves utilizing online monitoring to gather real-time data on the fundamental characteristics of a functioning power block. For both establishment and upkeep, the proposed system uses easily accessible and inexpensive resources. The study examines the use of a cloud computing-based Internet of Things platform, a flexible technology capable of interacting with the environment and digital entities. The goal of this study is to develop and deploy a control operation system that prevents power block starting failures in an automatic changeover system. The changeover system is responsible for switching between three different electrical sources that provide continuous power to an independent load system. The system's goal is to ensure uninterrupted electrical power supply to a Cell on Wheels communication tower located at a remote site. A cloud computing infrastructure and an ESP-8266+ Wi-Fi microcontroller deploy the solution.