GPS technology is also used in nearly 95 percent of all crop dusting services. The expanded use of GPS is the most significant single technological advancement for American farm equipment in the past 15 years. Farmers use GPS for accurate mapping of field boundaries, roads and irrigation systems; for precision planting; and for targeting the application of fertilizer and chemicals that combat weeds and crop diseases.
GPS also allows farmers to work despite low-visibility field conditions such as rain, dust, fog and darkness.
High-precision positioning GPS systems utilize more GPS signals than consumer GPS devices, that along with the use of various forms of augmentation signals dramatically increase accuracy.
Elimination of the need for human "flaggers" increases spray efficiency and minimizes over-spray. Contact us. Error: Only up to 6 modules are supported in this layout.
If you need more add your own layout. Locating a yield map: GPS can also be used to locate a yield map by mounting a GPS receiver on a farm machinery and then collecting the data.
Environmental control: Applying herbicides or pesticides based on the capacity of each square meter reduces the application amount of the pesticide being used.
This allows the soil to absorb all the pesticide hence reducing the chances of runoff. Farm planning: GPS plays an important role in the planning of a farmland ready for planting.
GPS will give the overall size of the area and help in determining what crop will be planted on what part of the farmland using various factors such as soil characteristics and crop characteristics. Field mapping: GPS gives an exact estimate of the field that is being prepared for farming. Through this, experts can tell what part of the field will be used for farming activities and what area will be used for other non-farming related activities. Soil sampling: Soil sampling is one of the most important uses of GPS in agriculture.
It is important to know what type of soil is available on a given farmland as this will help in determining the type of crop to be planted on that farm. Crop scouting: GPS gives an exact mapping of an area helping when scouting for crops that are grown in a particular area. Through this, experts are able to tell the nature and type of crops that thrive within a given locality and help in improving the quality of that crop. Yield mapping: After a crop has been planted and is ready for harvesting, GPS can be used to make an estimation of the yield of a given farmland.
This can be achieved through aerial mapping where experts can tell the quantity of a yield based on the area covered by the crop. Correlation of production techniques with crop yields: GPS can be used to make a correlation of the production technique that was used over a given piece of land and the crop yields after a given period of time. This information can then be used to determine the viability of a given technique.
Soil property mapping: GPS plays an important role in determining the soil property of a given soil to establish its variability and suitability for a given crop. It also helps researchers identify which area of a farmland contains what type of soil and what area is suitable for a given crop.
Machinery location: It is easier to locate any farm machinery on a vast piece of land thanks to GPS. All of these tasks boost productivity and sustainability on the farm by providing farmers with the data to make informed, sustainable decisions. Technology on farms has evolved to the point where machines can wirelessly communicate to each other in the field.
This concept, known as machine-to-machine M2M communication, is also linked closely to GPS technology. Enabling machines to know where in the field another machine is and what work it has done in real time means the machines work as a team to get the job done in the most efficient way possible with no overlap.
Coordination among machines helps farmers avoid redundant effort and the overuse of valuable inputs, which allows for more efficient use of resources and unlocks the potential of automation.
As the agriculture community continues to work to meet the rising demands for food, fuel and fiber, GPS technology will play a key role to help farmers make more food more efficiently, sustainably and with greater consistency in results.
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