Precision Agriculture uses technology to maximise crop farming management at the field level. It reduces waste, increases production, and has little negative effect on the environment.
Precision agriculture gathers and analyzes data using automated systems, GPS, GIS, UAVs, sensors, and other automated systems. This data analysis help farmers manage their crops more effectively.
GPS technology in agriculture makes accurate mapping, field monitoring, and the effective application of inputs like seeds, fertilizer, and pesticides possible.
GIS technology aids in the creation of comprehensive maps that examine several aspects of crop and soil health. This enables farmers to make data-driven decisions for accurate field management.
Drones, also known as UAVs, provide airborne pictures and data that aid in field condition assessment, insect detection, and crop health monitoring. They improve farming methods' accuracy.
Micro irrigation devices save water while increasing agricultural productivity by delivering water straight to plant roots. This technology may ensure effective water management in precision agriculture.
During harvest, yield monitoring devices gather data that showcase crop performance. Yield maps are useful for identifying high and poor production zones to optimize planting plans in the future.