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The advantages of agricultural drones are as follows:
High efficiency, XAG XP2020 agricultural drone operation efficiency is 30 40 times that of manual work, in addition, XAG agricultural drone can also achieve accurate and efficient solid particle sowing operations, which can complete more than 100 acres of rice sowing per hour, which is 80 times the efficiency of manual sowing.
Variable spraying: XAG agricultural drones can achieve variable spraying with the help of Jixia, which can effectively save costs and improve efficiency.
Easy to operate: Unlike traditional large machinery, XAG agricultural drones are easier to deploy and less costly.
It plays a protective role for the pilot, and when operating, XAG agricultural drones can fly autonomously, without the need for the pilot to be next to them, fully autonomous operation, and safer.
You don't need to learn for a long time, you can get started in 5 minutes. XAG uses fully autonomous operation, which basically does not need to learn too much about controlling the aircraft, and also supports manual operation, killing two birds with one stone.
XAG used RTK for the first time on an agricultural drone to make pesticide spraying more accurate, recording precise position, attitude and confidence.
lens calibration parameters, etc. As of January 1, 2020, the Beidou satellite navigation system.
XAG has invested heavily in setting up more than 2,300 RTK navigation base stations in China, covering more than 35,000 rural areas.
XAG agricultural drone.
The disadvantages of agricultural drones are as follows:
Short battery life.
The load capacity is not enough.
The emergence of XAG XP2020 solves this problem very well, and the water-cooled charging pioneered by XAG can ensure two batteries and one charge, effectively ensuring the battery life, and at the same time, it can also ensure the load capacity that ordinary users usually use. If you need a larger aircraft with a load capacity, you can look forward to XAG's new products in 2020.
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Advantages of plant protection drone operation:
1.High efficiency. 15-20 times that of manual labor.
2.Save water and medicine. The use of plant protection drones with special agents for flight defense saves water, uses less medicine, and is safer and more environmentally friendly.
3.Wide range of adaptation. Flatlands, hills, hills, and depressions can all use drones for plant protection operations. Compared with large-scale ground plant protection equipment, there is no need for a channel.
4.It is less harmful to the human body. The drone operator is far away from drugs during operation, and there is almost no damage.
Cons: 1The battery life of electric plant protection drones is short, and the load needs to be improved.
2.Industry standards are yet to be developed.
However, in recent years, the emergence of fuel direct-drive multi-rotor plant protection drones has made up for the shortcomings of electric plant protection drones with short endurance and small load, such as Changfeng's Tianma-2A, 70kg load, 1-3 hours of endurance, is a new trend in the development of plant protection drones.
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Take the DJI T20 plant protection drone as an example:
Efficient, the pinnacle.
The T20 increases the maximum load to 20kg, and with the 7-meter wide spray width, the operation efficiency of a single flight is increased to 25 acres, and the operation efficiency is increased to 180 acres per hour, making the operation more efficient.
Work autonomously, easily and accurately.
With a simple setting of operating parameters, the T20 can achieve fully autonomous operation in a variety of operation scenarios such as fields, terraces, and orchards. In addition, the T20 is equipped with RTK centimeter-level positioning function as standard, making fully autonomous and precise work a daily routine.
Good results come from powerful configurations.
The T20 adopts an eight-nozzle design, a 6L min high-flow water pump, and a deeply optimized wind farm design to make the fog droplets uniform and fine, easily covering both sides of crop blades. The newly developed four-channel electromagnetic flowmeter can independently control the four liquid lines of the T20, so that the spraying effect of each nozzle is more similar and the overall spraying is more uniform.
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The agricultural spraying drone has high operation efficiency, good spraying effect, simple operation, and fully automatic flight spraying after setting up the route, which is not expensive compared with agricultural machinery. The disadvantage is that the battery life is short, and it is common for a battery to change the dressing and change the battery.
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There are many advantages: high efficiency, low cost, and little harm to the human body.
The disadvantages are: it needs to be operated by professionals, ** generally more than 30,000, and it is difficult to learn to dispense medicines.
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Summary. Merit.
Avoid sacrificing flight crew, because there is no need for flight personnel on the aircraft, so the safety of human life is guaranteed as much as possible.
The UAV is relatively small in size, and is not limited by the physiological conditions of the pilot when designed, so it can have a great work intensity, and does not require a personnel survival support system and an emergency rescue system, which greatly reduces the weight of the aircraft.
Low manufacturing cost and life cycle cost, no expensive training and maintenance costs, long service life of the body, easy to overhaul and maintain.
The technical advantage of UAVs is that they can take off and land at fixed points, and the conditions of the take-off and landing sites are not high, and they can be remotely controlled by radio or through the on-board computer.
The diversity of equipment and its adaptability are good.
Advantages and disadvantages of unmanned aerial systems.
Merit. Avoid sacrificing flight crew, because there is no need for flight personnel on the aircraft, so the safety of human life is guaranteed as much as possible. The UAV is relatively small in size, and is not limited by the physiological conditions of the pilot when designed, so it can have a great work intensity, and does not require a personnel survival support system and an emergency rescue system, which greatly reduces the weight of the aircraft.
Low manufacturing cost and life cycle cost, no expensive training and maintenance costs, long service life of the body, easy to overhaul and maintain. The technical advantage of UAVs is that they can take off and land at fixed points, and the conditions of the take-off and landing sites are not high, and they can be remotely controlled by radio or through the on-board computer. The diversity of equipment and its adaptability are good.
2.Limitations of UAVsCompared to manned aircraft, UAVs have the following limitations. (1) There is no pilot and crew on the drone, and the dependence on navigation systems and communication systems is higher.
2) UAVs relax redundancy and reliability indicators, reducing flight safety. In the event of a mechanical failure or electronic obstruction, drones and onboard equipment can cause fatal injuries. (3) The endurance of drones is relatively short, especially electric drones.
4) The communication frequency and ground obstacles of UAV remote control, ground station, image transmission, data transmission radio and other equipment limit the communication transmission distance of UAV system and limit the flight range of UAV. (5) The volume, weight and power of the UAV determine the limited wind and rain resistance of the UAV.
What is the take-off problem caused by improper control of the drone.
Ask about custom messages].
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Advantages of the Phyto-Calendar Wheel Protecting UAV:
The efficiency and safety of plant protection drones are gradually changing the status quo of traditional agriculture in China. Taking DJI Agriculture's latest plant protection drone T50 as an example, it operates 320 mu (field) and 60 mu (fruit trees) per hour to manure (spreading), which is dozens of times the labor efficiency.
Employment Prospects for Plant Protection UAVs:
China's 1.8 billion acres of farmland requires a large number of agricultural plant protection operations every year, and the market demand for unmanned pilots of plant protection aircraft is very broad. It is understood that most of the current market for UAV plant protection operations is between 5-20 yuan per mu, and the income of each machine in the peak season can reach more than 2,000 yuan per day. Based on DJI's professional platform, Huifei will continue to collect the needs of domestic employers for drone positions and share them with students in real time.
Huifei's trainees have a training experience in actually controlling plant protection drones, and their graduation certificates have been recognized by more and more employers as a shining point on their resumes.
The progress of agricultural production is inseparable from technological innovation.
DJI Agriculture is driven by user needs and technological innovation, providing global users with smart agriculture solutions based on drone technology to promote the transformation and upgrading of agricultural production.
Intelligent and efficient, leading the future of agriculture.
Advanced agricultural intelligent equipment and perfect production data collection, processing, analysis and decision-making system provide efficient and reliable solutions for farmland planning, crop monitoring, pest control and agricultural management.
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DJI Agriculture not only provides advanced agricultural intelligent equipment, but also provides smart agriculture solutions for farmers and growers, agricultural cooperatives, agricultural service organizations and other customers. From sowing to harvesting, it saves time, effort and worry for agricultural practitioners.
Food Crop Solutions <>
Digital, intelligent and precise management of rice, wheat, corn and other grains is carried out to provide agricultural practitioners with more convenient and efficient field management solutions, reduce operating costs, improve production, improve quality and increase income.
Solutions for cash crops.
For cash crops such as cotton, citrus, and tea, combined with technologies such as 3D scene reconstruction and map semantic recognition, we provide fully autonomous and precise pesticide application schemes, scientifically manage orchards, and reduce the risk of yield reduction.
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At present, drones are in agriculture, because he has this. Now we can see drones pulled by small trucks in the fields, what are they doing? In fact, the most common ones are spraying.
The most common thing is to spray the corn field, his drone spray, the people are much faster, and the fight is better, and his atomization is more uniform. And it won't miss a beat, basically it only takes 20 minutes to hit a piece of 5 acres of land. The effect of his beating is also particularly better than that of manual fighting.
When the corn is small, it is easy to say, when the corn is big, it is not easy to enter, and it is easy to sing, but the drone is easy to get very, now the drone only needs to plan the route, and then he automatically goes to the medicine, saving a large part of the labor, and now the farmers can also think of it, in order to save trouble, they use other people's that to fight, ** is not too expensive, they can afford it. Moreover, he can hit the crops in any field, and the effect is much better than the artificial effect.
And some time ago I also saw the drone sprinkling fertilizer, the people that sprinkled particularly evenly, how much an acre of land sprinkled it can be quantitative, and well, the speed of flying can also be controlled, than manual sprinkling is also very good, ordinary people to sprinkle 5 acres of land have to take half a day, drones at most an hour to complete, you see this saves four or five hours of labor.
The rest of the agriculture basically has nothing to say about the use of drones, sometimes you can also use drones to check the situation in the field, for example, people have wrapped hundreds of acres of land, if you run manually, how slow, drones can fly to the middle of the land or the edge of the land in just two minutes, which greatly saves artificial power, the most important point is that the drone can measure the land, the size of the plot and the shape of the sign measurement, watering the ground can also be observed with this drone, Some time ago, I also borrowed a drone to pick things, I feel that the fruits that grow on a big tree like this in the future can be picked by drones, and this is also their future development direction.
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Drones can be used for seeding, irrigation, monitoring, pollination, and spraying pesticides.
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The UAV used in agriculture is often called the agricultural plant protection drone, which is mainly used for the unmanned aircraft of agricultural and forestry plant protection operations, through the ground remote control or GPS flight control, to achieve spraying operations, can spray pesticides, seeds, powders, etc.
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