Agricultural drone

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An agricultural drone is an unmanned aerial vehicle used in agriculture operations, mostly in yield optimization and in monitoring crop growth and crop production. Agricultural drones provide information on crop growth stages, crop health, and soil variations. Multispectral sensors are used on agricultural drones to image electromagnetic radiation beyond the visible spectrum, including near-infrared and short-wave infrared.

Contents

Legality

As drones entered use in agriculture, the Federal Aviation Administration (FAA) encouraged farmers to use this new technology to monitor their fields. However, with the unexpected boom of agricultural drones, the FAA quickly retracted such encouragement, pending new rules and regulations. With incidents such as drones crashing into crop dusters, the FAA and the AFBF (American Farm Bureau Federation) began discussions to agree on regulations that would allow the beneficial use of such drones in a safe and efficient manner.[ This paragraph needs citation(s) ]

In 2016, the FAA published rules for commercial drone operations. [1] These rules require that commercial drone operators pass a knowledge exam, register their aircraft, and fly in accordance with published restrictions. [2] While satisfied overall with the rules, the American Farm Bureau Federation would like small adjustments to some of the restrictions that have been implemented.[ citation needed ]

Many countries, such as India, Malaysia, Singapore and Australia, have implemented laws regarding the use of drones. Such laws are still nonexistent in many countries around the world, and 15 countries have outlawed all drone operations. [3] The EU plans to implement a common set of drone regulations for all of its members. [4]

Security and ethics

The use of agricultural drones has ethical and social implications. One benefit is that they are able to monitor and control the use of pesticides properly. This allows minimizing the environmental impact of pesticides. However, drones do not require permission to fly over another person's property at altitudes of under 400 feet (120 m). They may have microphones and cameras attached, and the resulting concern for potential privacy violation has caused some opposition towards drones.[ This paragraph needs citation(s) ].One other improvement with using drones is the precision that they operate with.

Other companies might start flying their drones in unregulated areas to survey their competition and the condition of their crops and agricultural yield.[ This paragraph needs citation(s) ]

Future use

There is a large capacity for growth in the area of agricultural drones. With technology constantly improving, imaging of the crops will need to improve as well. With the data that drones record from the crops the farmers are able to analyze their crops and make educated decisions on how to proceed given the accurate crop information. Software programs for analyzing and correcting crop production [5] have the potential to grow in this market. Farmers will fly a drone over their crops, accurately identify an issue in a specific area, and take the necessary actions to correct the problem. [6] This gives the farmer time to focus on the overall task of production instead of spending time surveying their crops. Additional uses include keeping track of livestock, surveying fences, and monitoring for plant pathogens. [7]

Both the purchase and maintenance costs of modern drones make them too expensive for small farms in developing nations. Pilot programs in Tanzania are focusing on minimizing those costs, producing agricultural drones simple and rugged enough to be repaired locally. [8]

A research team from Washington State University has developed an automated drone system that deters pests like crows or European starlings from feeding on grapes and other crops. The birds could be scared off by the drone's noise, but researchers also could include distress calls and predatory bird noises. [9]

See also

Related Research Articles

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<span class="mw-page-title-main">Aircraft pilot</span> Person controlling an aircraft in flight

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<span class="mw-page-title-main">Precision agriculture</span> Farming management strategy

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<span class="mw-page-title-main">Radio-controlled aircraft</span> Aircraft controlled remotely via radio control

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<span class="mw-page-title-main">First-person view (radio control)</span> Controlling a radio-controlled vehicle from the driver or pilots view point

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<span class="mw-page-title-main">AC 91-57</span> American regulatory guidance

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<span class="mw-page-title-main">Regulation of unmanned aerial vehicles</span>

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<span class="mw-page-title-main">Commercial UAS Modernization Act</span>

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<span class="mw-page-title-main">Agricultural technology</span> Use of technology in agriculture

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References

  1. "Code of Federal Regulations (CFR), Title 14. Aeronautics and Space, Chapter I. FEDERAL AVIATION ADMINISTRATION, DEPARTMENT OF TRANSPORTATION, Subchapter F. AIR TRAFFIC AND GENERAL OPERATING RULES, Part 107. SMALL UNMANNED AIRCRAFT SYSTEMS". ecfr.gov. Archived from the original on 2016-12-21.
  2. "Commercial Operations Branch – Part 107 UAS Operations". www.faa.gov. Retrieved 2020-07-28.
  3. Dukowitz, Zacc (2020-02-25). "No Flying Allowed: The 15 Countries Where Drones Are Banned". UAV Coach. Retrieved 2020-07-28.
  4. "Civil drones (Unmanned aircraft)". EASA. Retrieved 2020-07-28.
  5. "DJI SmartFarm".{{cite web}}: Check |archive-url= value (help)
  6. Bernard, James (2018-03-12). "Africa Farming Problems Aided With Drone Technology". Drone Addicts. Archived from the original on 2018-06-29. Retrieved 2018-10-27.
  7. Ehrenberg, Rachel (2018). "Eyes in the sky: 5 ways drones will change agriculture". Knowable Magazine. doi: 10.1146/knowable-101118-3 . S2CID   134431340.
  8. "Innovation in Africa: what next?". Africa Times. 2016-02-10. Retrieved 2020-12-28.
  9. Washington State University (2022-06-02). "Drones Could Scare Birds Off Farm Fields". Manufacturing Business Technology . Industrial Media . Retrieved 2022-06-02.
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