Smart agriculture and precision farming use technology to improve the efficiency and productivity of the farm-to-market process. IoT sensors are used in smart agriculture, often known as agricultural technology, to connect everything from irrigation systems to soils and animal production. While the Department of Telecommunications (DoT) has announced that 5G internet services will be effectively deployed in India in 2022, broadband cellular technology is expected to have an influence on agriculture.
These improvements are necessary to feed the growing population of the planet, which is expected to reach 9.7 billion by 2050. Precision agriculture facilitated by 5G technology has the potential to optimize resources, reduce water consumption and increase production.
By 2035, fifth generation, or 5G, wireless is expected to generate $ 12.3 trillion in revenue and 22 million jobs globally. So how will this affect the agricultural sector as a whole? With the potential of 5G to establish new business models in a variety of industries, including automotive and manufacturing, use cases in agriculture hold great promise for the future of smart farms and their capacity. harness the value of data.
Today’s farms use a variety of Internet of Things (IoT) devices to help producers reduce operating costs, increase yields, and better understand in a volatile environment. By 2023, it is expected that more than 12 million agricultural sensors will have been placed around the world.
5G is expected to take things to the next level by enabling machine learning and near real-time communication between devices and the cloud, as well as much higher internet speeds (up to 100 times faster than 4G) . Farm Original Equipment Manufacturers (OEMs) can take advantage of the automated farming procedures made possible by next-generation 5G technologies, which allow them to remotely collect and analyze rich data from their machines and terrain.
Farmers will have access to a wide range of improved technologies thanks to 5G. A larger network of data collection sensors can provide a more accurate picture of field conditions. Autonomous drones can sweep fields using artificial intelligence to detect weeds and spray pesticides with pinpoint accuracy. Most importantly, farmers will be able to better assess their water use and make changes to the irrigation system based on reliable data. Around the world, groups like the 5G Open Innovation Lab in the United States are testing and creating use cases in the field.
The future of modern agriculture
According to a United Nations assessment, 38% of the Earth’s surface is used for agricultural activities, such as crops and grazing livestock. While the majority of current 5G infrastructure is implemented in densely populated metropolitan areas, rural coverage is expanding. Equipment manufacturers and actors in the agricultural sector will be able to extract more value thanks to 5G.
To meet the global food demand of a growing population, innovations in the agricultural industry will be needed to increase the efficiency of agricultural practices. While agriculture has been slow to adopt new technologies, the prospect of smarter farming methods is understandably exciting.
5G-enabled solutions will help facilitate the digital transformation of agriculture, and although the industry has been slow to adopt new technologies, the prospects for smarter farming methods are understandably exciting. The global smart agriculture industry should be worth $ 15.3 billion by 2025, which means that there are several potential players.