Precision agriculture, also called precision farming, refers to the way farmers manage crops to ensure efficiency of inputs such as water and fertilizer, and to maximize productivity, quality, and yield. The term also involves minimizing pests, unwanted flooding, and disease.
Drones allow farmers to constantly monitor crop and livestock conditions by air to quickly find problems that would not become apparent in ground-level spot checks. For example, a farmer might find through time-lapse drone photography that part of his or her crop is not being properly irrigated.
Agricultural drone technology has been improving in the last few years, and the benefits of drones in agriculture are becoming more apparent to farmers. Drone applications in agriculture range from mapping and surveying to cropdusting and spraying.
On the surface, agricultural drones are no different than other types of drones. The application of the UAV simply changes to fit the needs of the farmer. There are, however, several drones specifically made for agricultural use
The process of using a drone to map or survey crops is a relatively straightforward one. Many newer agricultural drone models come equipped with flight planning software that allows the user to draw around the area he or she needs to cover. Then, the software makes an automated flight path and, in some cases, even prepares the camera shots.
As the drone flies, it automatically takes pictures using onboard sensors and the built-in camera, and uses GPS to determine when to take each shot. But if your drone does not have these automatic features, then one person needs to fly the drone while the other takes the photos.
Global Market Insights forecasts that the agricultural drone market size will exceed $1 billion and 200,000 units shipped by 2024. GMI attributes the growth through 2024 to increasing awareness of the pros and cons of drones in agriculture among farmers.
In 2015, the Federal Aviation Administration approved the Yamaha RMAX as the first drone weighing more than 55 pounds to carry tanks of fertilizers and pesticides in order to spray crops. Drones such as this are capable of spraying crops with far more precision than a traditional tractor. This helps reduce costs and potential pesticide exposure to workers who would have needed to spray those crops manually.
Drones have revolutionized agriculture by offering farmers major cost savings, enhanced efficiency, and more profitability. By quickly surveying vast stretches of farmland, drones can map the property, report on crop health, improve spraying accuracy, monitor livestock and irrigation systems, and more.
The ability to collect and analyze this data in real time has tangible outcomes for farmers such as better crop yield, fewer resources expended on weeds and herbicides, and overall improved management decisions.
Insider Intelligence expects spending on the overall drone market to surpass $12 billion by 2021. But what about the agricultural drone market specifically?
Global Market Insights forecasts that the agricultural drone market size will exceed $1 billion and 200,000 units shipped by 2024. GMI attributes the growth through 2024 to increasing awareness of the pros and cons of drones in agriculture among farmers.
The company also claims that technological advancements in farming techniques will push demand during the forecast period. Increased automation stemming from a lack of skilled resources and a labor crisis will also bolster agricultural drone demand. Finally, GMI expects government programs in this sector to permit operations of various sizes to help make farming processes more efficient.