GPS is an abbreviation for Global Positioning System, a groundbreaking technology that made significant strides in recent years. As a result of innovations and advancements, it now has a wide range of applications across an array of industries, including healthcare.
The agriculture sector and precision farming are two of the most important areas in which GPS antennas and their applications have acquired prominence in recent years.
To give everyone a brief overview of how this technological wonder is currently transforming for the better the way we produce crops and food for our table, here are some of its applications in farming and agriculture.
GPS technology provides the relevant information needed to precisely identify soil variability. It can also help a lot in determining whether a specific type of soil is ideal for use in growing a particular crop or not. Soil sampling also facilitates soil profiling work to distinguish soils that are viable from those that are not.
GPS can be used to pinpoint weed patches in large areas of land by employing linear sampling techniques and GPS antenna receivers. Crop weed, on the other hand, is commonly detrimental to the healthy development of a crop as well as the eventual yields across the course of a season.
When it comes to arranging the planting of a particular crop, GPS can be indispensable. Depending on the soil type, each seed has a precise spacing and depth that must be adhered to. When using GPS, it is much easier to determine the spacing requirements for a certain seed as well as the depth to which your seed should be buried to produce the highest possible yield.
Creation of Yield Maps
The use of GPS type of antenna and related technology is critical in developing yield map forecasts for various types of crops. Using GPS technology in the field during the harvest season, for example, is necessary if you want to find out estimated yields of a given crop from a given parcel of land. The information generated here will be based upon the unique features of the land and those of the seed.
In order to ascertain which sections of a farm are ready for harvesting and how the harvesting should be carried out for maximum efficiency and save time, effort, and resources, GPS technology may be utilized extensively in on-farm operations. It can help give an estimate of the area being harvested or even the projected returns from that area. GPS can supply the location.
Yield Map Location
GPS could also be used to establish a yield map, which can be accomplished by mounting a GPS receiver antenna on tractors or similar equipment and then gathering collected data for assessment.
Soil Property Mapping
With the help of GPS technology, we can easily identify properties of the soil that might be relevant for specific crops. The obtained data can be used to help researchers determine which areas of farmland contain different types of soil and which areas are suitable for a particular crop.
Thanks to GPS technology, locating a particular farm machine or equipment, especially for those handling expansive farmlands, is now easier. It has taken away from the equation of farming the need to physically go out in the field to look for particular equipment. This usability feature is most indispensable in circumstances where you are using an array of farming tools and machinery. The precise location of these farm machines may be determined using GPS technology.
Many people are surprised to know that GPS antennas and related technology can be integrated into many different aspects of farming, particularly in crop management and production.
But the bigger concern we see here is how to disseminate these pieces of information to the greatest number of farmers.
Educating the farming sector on how to leverage this technology with respect to improving farm yields is a must, especially now that food production is fast becoming a major issue in many different countries. Simplifying our current farming processes is the way to go here, and technology can help get us there.