Precision Farming Technologies
The following describes the technologies used in precision farming technology:
1. The Global Positioning System
- Farm equipment placement in the field is identified by GPS. To apply variable rate technology in the field of agricultural input management, it offers a precise positioning system. The development of an effective system for remote sensing-based agriculture management is made possible by the Internet.
- Grid sampling is a way of dividing fields into smaller sections.
2. Variable-Rate Technology (VRT)
This type of technology comprises agricultural field equipment that can accurately regulate the rate at which crop inputs, such as fertilizers, irrigation, tillage, pest control, etc., are applied.
3. Yield Monitors
Yield monitors are crop yield measuring devices installed on harvesting equipment. The yield data from the monitor is recorded and kept along with the positioning data from the GPS device.
4. Remote Sensors
To view crops from above (from a satellite or low-flying aircraft or drone) without coming into contact with them, record the image, and then display it is known as remote sensing in the agricultural industry.
5. Proximate Sensors
As the tractor moves over the field, proximate sensors can be used to assess crop characteristics and soil parameters like pH and nitrogen concentration.
6. Hardware and Software for Computers
To evaluate the data collected by other precision farming technology components and make it available in formats like maps, graphs, charts, or reports, computer support is needed.
Precision Farming
Precision Farming is a modern approach to farming that uses advanced sensors and analysis tools to boost crop yields and make better decisions. It’s a global practice aimed at increasing production, saving time and effort in farming, and managing fertilizers and irrigation more efficiently.
Precision farming combines remote sensing and data collection with Geographic Information Systems (GIS) and Global Positioning Systems (GPS) to enable farmers to adjust crop management to in-field variability. Farmers can control their crops with precision without compromising crop yields.
In this article, we will look into what is Precision Farming, along with its definition, examples, technologies, components, objectives, and advantages of precision farming in detail.
Table of Content
- What is Precision Farming?
- Precision Farming in India
- Precision Farming Examples
- Precision Farming Technologies
- Components of Precision Farming
- Precision Farming vs Traditional Farming
- Objectives of Precision Farming
- Advantages of Precision Farming
- Future Scope of Precision Farming