INTRODUCTION:
Agriculture has not been exempt from the technological revolution that has swept through many other industries over time. Farmers now have access to cutting-edge machinery and techniques like robots and drones that can help increase agricultural yields while lowering costs and boosting sustainability. In this post, we’ll look at how drones and robotics are used in contemporary farming and agriculture.
DRONES:
Unmanned aerial vehicles (UAVs), commonly known as drones, are becoming more and more common in agriculture because of their capacity to take high-resolution pictures of crops and lands. These photos can be used to locate farm regions that need extra care, such as those that require additional fertilisation or irrigation. Drones can also be utilised in precision agriculture, which uses data analytics to guide crop management decisions. Farmers may maximise crop yields and reduce waste by gathering data on elements like soil quality, weather patterns, and plant health.
EMERGING TECHNOLOGY:
Robotics is another cutting-edge agricultural technology. Agribots, often referred to as agricultural robots, are created to carry out a variety of duties include harvesting crops, sowing seeds, and keeping track of the health of plants. These robots can be trained to administer pesticides and fertilisers precisely, reducing waste and increasing agricultural yields. They are outfitted with sensors and cameras that can identify plant diseases and pests.
KEY BENIFITS:
Increased efficiency is one of the main advantages of using drones and robotics in agriculture. By automating numerous operations, farmers can save time and money by using these technologies. Farmers may now concentrate on more important duties like strategic planning and decision-making, which can ultimately boost profitability and sustainability.
IMPROVING EFFICENCE:


Drone and robotic use in agriculture has the potential to lessen environmental impact in addition to increasing efficiency. Farmers can limit the quantity of water and fertiliser needed, as well as the usage of pesticides and other potentially hazardous chemicals, by maximising crop yields and minimising waste.
CONCLUSION:
In conclusion, robotics and drones are revolutionising modern agriculture and farming techniques. These technologies can boost efficiency, profitability, and sustainability by giving farmers access to real-time data and the capability to automate a variety of jobs. It seems obvious that the usage of drones and robotics in agriculture will only increase over the coming years as global food demand rises.