Investigation and development of sensor based intelligent control strategies using soft computing techniques

Abstract

The development of a smart automated system provides rapid newlinemonitoring of environmental metrics with the support of advanced newlinemeasurement and control techniques. Nowadays, the advancement of new newlinetechnologies has resulted in a fresh and effective solution to engineering newlinedifficulties. This will aid the designer in creating a cutting-edge device in the newlineareas of flexible system design, intelligent monitoring, and design of smart newlineagriculture system. Sensing technology and wireless communication are newlinewidely used for providing a flexible mechanism for real-time environmental newlineparameter measurement and monitoring. Monitoring the different newlineenvironmental status and estimating vital metrics ranging from all levels are newlineall part of the design of a smart agricultural system. The effect of climate newlinechange and its consequences on agriculture has gotten a lot of attention from newlineresearchers in the past decades. Basically, measuring environmental factors newlineduring all seasons of climate becomes a crucial problem, and a real-time newlinesystem to monitor the same must be designed. The widespread application of newlineIoT based control systems in smart agriculture paves the path for researchers, newlinefarmers, and agricultural workers to solve a variety of real-time issues. newlineSolar radiation becomes particularly crucial in the development newlineof a smart agriculture system, and researchers use it to capture energy that is newlinealways dependent on real-time weather conditions. Generally, UV, visible, and newlineinfrared light make up the majority of solar radiation that reaches the planet. newlineBecause it is relevant to various outside field experiments, the application of newline