7 MODERN FARMING TECHNOLOGIES MAKE FARMING BETTER.

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7 Modern Farming Technologies Make Farming Better.

Today’s agribusiness is going in different directions at the same time. However, his main goal is to use agricultural technology to increase crops through good planning and good management. By promoting more efficient and sustainable farming methods, advanced technology in agriculture helps farmers succeed in today’s agribusiness market. Practices such as crop rotation and new agricultural technologies, such as monitoring field productivity with machines and satellite images or specialized agricultural equipment, all contribute to the sustainability of agriculture. 

Like all other sectors, the agricultural sector is being transformed by new technologies and practices. These practices are rapidly replacing traditional practices such as deforestation, systematic agriculture, grazing and forestry.

 1. Vertical farming

1. Vertical farming


It is the practice of using indoor farming techniques and environmentally controlled technologies (CEA) on vertical surfaces. These companies use artificial light and environmental control systems (humidity, temperature, gas, etc.) such as greenhouses where sunlight is added by reflective machines. Vertical farming is ten times more productive than traditional farming. In areas where urban boundaries are entrenched in agricultural land, these methods will be of great benefit to farmers.
 
There are three types of vertical farming:
 

  • Hydroponics is a vertical farming system that grows without soil using mineral nutrients and water. Nutrients include materials from fish waste, duck feed, chemical fertilizers, etc. Most hydroponic tanks are made of plastic, zinc, glass, metal, or wood. The nutrient solution is changed at regular intervals or when the concentration falls below the set level.


  • Aeroponics was introduced by the National Aeronautical and Space Administration (NASA) in the 1990s. It is a system that grows in air or sand without soil and little water.


  • Aquaponics is used to grow fish and plants in the same environment. Fish waste provides nutrients to plants and in turn, plants help filter water.

2. Drones and bees

2. Drones and bees


The Times magazine says that there are more than 700 species of bees in North America that are on the verge of extinction. Scientists say that 90% of the world’s forest vegetation and 30% of the world’s crops are pollinated by bees, bats, birds and other insects. Since bee populations are declining due to colony depression, research into the use of mechanical devices as an alternative is increasing. Small drones are being developed in the laboratory to manipulate bees and pollinate plants. 

3. Polyhouse/Polytunnel Farming

. Polyhouse/Polytunnel Farming


A poly house is a steel tunnel with polyethylene fibers used in modern agriculture. Humidity and ventilation can be natural or controlled by air conditioners while the interior is heated by solar radiation. The plastic is protected from damage caused by the sun’s ultraviolet rays. A polyhouse can be used to grow fruits, vegetables and flowers all year round.


4. Artificial Intelligence, IoT and Automation

4. Artificial Intelligence, IoT and Automation


Many companies are developing driverless tractor technology software that can help farmers quickly during the demanding harvest season. Colin Hurd, founder of Smart Ag, said new technology will help farmers improve their existing equipment and increase its efficiency and capacity. The AutoCart software is cloud-based, which means these agricultural vehicles will be connected to the global Internet of Things (IoT). Sensors can be used in automated farming to enable farmers to understand forest, soil or water conditions. 

5. Robotics

Robotics


In today’s world, robots have started to perform human-related tasks. Also in agro-industry, robots can be used to harvest and plant crops. It will be very useful in large scale agriculture for export business. Although many farmers in developing countries still use ancient methods, these modern methods produce good results in the long term of cultivation. Traditional farmers can learn from modern farmers by incorporating these techniques into existing practices.

 6. Soil and plant sensors
 

. Soil and plant sensors


Today, farming equipment is increasingly equipped with intelligent sensors that can read everything from plant health to vital nitrogen levels in water. The sensor makes the input device move based on the real-time field conditions.
 
Sensor technology is also available for measuring soil electrical conductivity, soil, organic matter content and even soil characteristics such as pH. For example, Varis Technologies, Bionics, and Dulem all produce different types of ground sensors. It is an important modern agricultural technology.

 7. crop connected to Wi-Fi

crop connected to Wi-Fi


Modern farms often have electronic sensors spread over the ground that can monitor various conditions; In some cases, the applications send data to a server on the farm or in the cloud (network servers are used for data collection and processing). An example of a good agricultural NE solution is the Hi-Line Co-op platform that combines soil monitoring, satellite imagery and harvest data to help create custom exchange rate indexes for your farm.
 
These numbers are automatically analyzed and instructions are sent to the farm’s automatic irrigation system, which in some cases can add the right amount of fertilizer as needed before distributing the right amount of water through and tape. crops. By clicking do my homework for me, you can get help with homework and be more independent during your studies.
 
It increases efficiency, distributes appropriate water from time to time, can prevent damage, and reduce the amount of fertilizer. Farmers can access this data from a tablet or smartphone, giving them real-time insights that previously required a quick soil analysis system. Wifi connected crops are modern farming technology. BUS technology

 

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