| dc.description.abstract | This project focuses on enhancing existing agricultural methods through the utilization of modern
technologies to improve farming practices and modernize traditional agricultural systems. In remote
areas, it is crucial to monitor the Solar Pumping Control System to ensure stable operation,
particularly in regions with unpredictable weather patterns. This initiative aims to enable farmers at
the grassroots level to adopt smart irrigation techniques for agricultural purposes. Smart irrigation
offers significant advantages by providing efficient irrigation at a reduced cost and requiring
minimal manpower. It is based on the concept of utilizing IoT sensors to gather data about
agricultural fields and automate irrigation processes through the Internet of Things. The
advancement in wireless communication technologies has facilitated the development of various
engineering solutions to meet human needs. One such solution is the Remote Monitoring and Control
of Solar Pumping System Using GSM, which offers a simple, versatile, and cost-effective design
for controlling the on-off operation of an electric motor used for irrigation. This system allows users
to activate irrigation remotely by simply giving a missed call from their mobile phones. The
efficiency of a solar panel is a major concern in the field of renewable energy. This paper presents a
simulation model developed in MatLab to investigate the effectiveness of various methods to
increase the efficiency of solar panels.
Furthermore, the effects of different conditions on the panel’s efficiency were evaluated, it also
provides users with additional control to irrigate their fields from a remote location | en_US |
