МЕЖДУНАРОДНАЯ НАУЧНО-ТЕХНИЧЕСКАЯ КОНФЕРЕНЦИЯ
АКТУАЛЬНЫЕ ПРОБЛЕМЫ ЦИФРОВИЗАЦИИ ЭЛЕКТРОМЕХАНИЧЕСКИХ И
ЭЛЕКТРОТЕХНОЛОГИЧЕСКИХ СИСТЕМ
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Fig 2. Placeholder for application interface screenshot
Results and Conclusion:
The conducted experiment demonstrates precise motor
control with a responsive delay of only a few seconds. By effectively eliminating the need
for physical proximity to the motor, the project significantly reduces associated risks and
efforts. The remotely controlled agricultural pump system proves to be cost-effective and
straightforward to set up. Its user-friendly
application interface, featuring large buttons
and color-coded elements, ensures ease of use for farmers. Moreover, the system boasts
high accessibility, accommodating both Wi-Fi
and GSM connectivity options, thereby
catering to a broad user base ranging from smartphone to feature phone users. The
experiment reveals exceptional reliability, with the system exhibiting accurate
reachability via both internet and SMS channels. The integration
of sensors provides
valuable data for monitoring field conditions, enhancing decision-making processes
related to irrigation. Overall, the system offers considerable benefits to farmers with
minimal
initial investment, making it a viable solution for enhancing agricultural
practices and improving yields.
