Real time monitoring of Temp and Humidity in Agriculture automation

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S M M. Naidu, Y. A. Chavan, M. R. Pillai, V. M. Diwate, P. S. Oza,O. N. Wagh

Abstract

Real-time monitoring of temperature and humidity is a critical aspect of agriculture  automation.  By using sensors placed strategically in the greenhouse or field, data can be collected and analyzed in real-time using a monitoring system. This enables farmers to make informed decisions  about  irrigation,  fertilization,   and   other   aspects of crop management, thereby optimizing crop yields and ensuring plant health. Agriculture is one of the most critical industries in the world, and it is constantly evolving. Over the years, technological advancements have been made to help farmers optimize their crop yields and ensure that their plants remain healthy. One of the critical aspects of agriculture automation is the real-time monitoring of temperature and humidity. Temperature and humidity are two of the most crucial factors that affect plant growth and health. Extreme temperatures and humidity levels can cause stress  to  the plants and affect their ability to produce high-quality crops. Hence, it is essential to monitor these factors in real-time to ensure optimal plant growth and health. To achieve real-time monitoring of temperature and humidity, farmers can use sensors placed strategically in the greenhouse or the field. These sensors should be selected based on the crop being grown and the environmental conditions. The sensors must have a high level of accuracy, precision, and reliability to provide accurate data. Once the sensors are installed,  they need to be connected to a monitoring system that can collect and analyze data in real-time.  The  monitoring  system  could be a computer-based  system  or  a  cloud-based  system  that can be accessed remotely. The system must be capable of providing  accurate  and  timely  insights   into   temperature and  humidity  changes.  The  real-time  data   collected   from the monitoring system can help farmers make informed decisions about irrigation, fertilization, and other aspects of crop management. For example, if the monitoring system detects that the temperature is too high, farmers  can  adjust the ventilation system or reduce the intensity of lighting to bring the temperature down. Similarly, if the humidity levels are too low, farmers can increase the humidity  by  using misters or foggers. The real-time monitoring of temperature and humidity is a crucial aspect of agriculture automation. It enables farmers to optimize their crop yields and ensure that their plants remain healthy. The monitoring system must be able to provide accurate data and insights into  temperature and humidity changes, allowing farmers to take corrective actions immediately if any anomalies are detected.

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