Wireless data monitoring of hybrid powered street light systemNasir Abbas
This document describes a project to implement a wireless data monitoring system for a hybrid powered street light system. The hybrid system uses both solar panels and a small wind turbine for power generation. An Arduino collects data from sensors on the hybrid system including voltage, current, temperature, and wind turbine speed. This data is transmitted wirelessly using XBee modules and received on a PC where it is displayed in LabVIEW. The project aims to remotely monitor the hybrid system for increased efficiency and fault detection.
Wireless data monitoring of hybrid powered street lightNasir Abbas
This document describes a project to implement a wireless data monitoring system for a hybrid powered street light. The hybrid system uses solar panels and a wind turbine for power generation. An Arduino collects data from sensors on the solar voltage, wind turbine voltage, battery voltage, temperature, current, and wind turbine speed. This data is transmitted wirelessly using XBee modules. LabVIEW software displays the monitored parameters in real-time. The system aims to reduce costs, increase efficiency, and allow remote monitoring of the hybrid street light.
Wireless data monitoring of hybrid powered street light systemNasir Abbas
This document describes a project to implement a wireless data monitoring system for a hybrid powered street light system. The hybrid system uses both solar panels and a small wind turbine for power generation. An Arduino collects data from sensors on the hybrid system including voltage, current, temperature, and wind turbine speed. This data is transmitted wirelessly using XBee modules and received on a PC where it is displayed in LabVIEW. The project aims to remotely monitor the hybrid system for increased efficiency and fault detection.
Wireless data monitoring of hybrid powered street lightNasir Abbas
This document describes a project to implement a wireless data monitoring system for a hybrid powered street light. The hybrid system uses solar panels and a wind turbine for power generation. An Arduino collects data from sensors on the solar voltage, wind turbine voltage, battery voltage, temperature, current, and wind turbine speed. This data is transmitted wirelessly using XBee modules. LabVIEW software displays the monitored parameters in real-time. The system aims to reduce costs, increase efficiency, and allow remote monitoring of the hybrid street light.
