Precision farming is crucial to the world’s third modern farming revolution. From 1900 until the 1930s, the first farming revolution industrialized agriculture, allowing each farmer to produce enough food for 2 billion people.
Long after that, in the 1970s, the second revolution, known as the Green revolution, occurred. Due to scientific development, newer sets of pest-resistant crops were developed, which allowed farmers to feed 155 people per acre.
The world population may hit 10 billion by 2050, and food production must quadruple to feed everyone. Advanced analytical capabilities and ever-improving IoT capabilities, such as precision agricultural drones, will be critical components of the third revolution.
Correct understanding of precision farming is critical for farmers and their affiliated companies. Precision farming is a farm management concept centered on the act of watching, measuring, and responding to numerous inter- and intra-field variable inputs in modern agriculture.
Precision Agriculture or Satellite Farming is the popular definition of the word, which is a technology-enabled approach to farming management that watches, measures, and analyzes the demands of particular fields and crops.
According to McKinsey, precision farming has two themes: Big Data & Advanced Analytics Capabilities, and Robotics – aerial photography, sensors, and smart local weather predictions. Predictive farming collects and analyzes data from plots to manage and optimize crop output.
Predictive farming is similar to taking medicine to treat a disease. The solutions are highly personalized, from the type of crop suited for a plot to the usage of pesticides in specific locations. Precision agriculture and contemporary farming cut production costs and waste by catering to the particular demands of each plot.
Precision farming is accomplished via the use of analytical softwares and technical equipment. Soil testing, plot measuring, weather pattern analysis, and crop analysis are all meticulously collected using field sensor-equipped devices. The data is calibrated to conclude, and farmers can use the results to develop a particular and exact set of practices.
Precision farming aids farmers in various ways because they can trace information about regions within a single farm. Some of the primary benefits of precision farming are:
Precision farming approaches include using innovative farming technology such as STAGE by Hydenmet to respond to the demands of plots and crops. In addition, you can employ big data analytics tools, robotics and drones to obtain thorough information on the plot, soil type, good crops, irrigation, and fertilizer requirements.
The data is used to design an exact selection of crops, fertilizer amount, and watering requirements. As a result, precision agriculture enables farmers to live debt-free lives by lowering production costs and losses while reducing total environmental impact.
According to the UN, the world’s population will reach 9.7 billion by 2050. With more than 60% of the population reliant on agriculture for food, the pressure to expand crop output to satisfy demand does not appear to be easing out. Moreover, climate change, which is increasing global temperatures, greenhouse gas levels, and the frequency of extreme weather events like floods and droughts, along with rising labor costs, high production costs, and unpredictability, offers a significant risk to agriculture’s future.
As a result, the objective is to boost production sustainably. STAGE by Hydenmet is an end-to-end farm intelligence system. It addresses environmental and agricultural issues, providing farmers with effective solutions via sensor and instrument implementations.