{"id":40191,"date":"2022-04-20T20:52:50","date_gmt":"2022-04-20T18:52:50","guid":{"rendered":"https:\/\/intellias.com\/?p=40191"},"modified":"2024-07-10T13:01:19","modified_gmt":"2024-07-10T11:01:19","slug":"the-future-of-agritech-trends-and-innovations-in-agriculture-to-watch-in-2022","status":"publish","type":"blog","link":"https:\/\/intellias.com\/innovations-in-agriculture\/","title":{"rendered":"The Future of AgriTech: Trends and Innovations in Agriculture to Watch in 2023"},"content":{"rendered":"
Any discussion of agribusiness in 2023 would be incomplete without considering the key trends and innovations in agriculture. Here\u2019s why.<\/p>\n
In the last two decades, global production of primary crops has increased by more than 50%. How did agricultural companies manage to double their production in twenty years, and how can they achieve even more impressive results in the face of a growing global population? The short answer is innovative agricultural technologies.<\/p>\n
Agricultural businesses can no longer afford to rely on intuition-based decisions, human-centered processes, and technologies born in previous centuries. The winners of tomorrow will be those implementing innovations in agriculture today. Find out what the future of farming will look like by exploring new technologies in agriculture. Let\u2019s get started!<\/p>\n
What\u2019s inside?<\/b><\/p>\n Connected farming is one of the most promising trends in agriculture, helping us understand how agricultural businesses can produce enough food to meet growing demand.<\/p>\n Connected farming is about using new technologies in agriculture to monitor, manage, control, and ultimately improve key agricultural and farming processes at the pre-production, production, and post-production stages of the farming cycle.<\/p>\n Connected farming is implemented through an ecosystem of diverse IoT devices<\/a> that gather and exchange data in the field, within equipment, in the cloud, and in corporate offices.<\/p>\n Monitoring fields is a good use case to show how farming innovations like IoT technology can replace inefficient and time-consuming approaches. Imagine a dozen sensors out in a field tracking the soil condition, air temperature, and humidity level. Once the level of a particular parameter reaches a yellow zone, a manager or field operator receives a real-time notification so they can take necessary actions.<\/p>\n As the system is highly customizable, it can be adjusted in a way that human involvement would in some cases not be required. For instance, inputs from sensors may instantly trigger aerial or ground-based irrigation drones<\/a>.<\/p>\n <\/p>\n IoT innovative agricultural technologies are already being employed for diverse connected farming applications. Major use cases include:<\/p>\n At every stage of the agricultural lifecycle, farmers must make dozens of timely and effective decisions. In the past, crop choice, soil preparation, fertilizer use, seed sowing, irrigation, weed protection, harvesting, and storage were determined by decisions based on instincts, manual calculations, and subjective opinions.<\/p>\n Today, agricultural decision-makers can save plenty of time, get accurate predictions, and make better decisions using innovative ideas on agriculture powered by machine learning (ML)<\/a> and artificial intelligence (AI) technologies<\/a>.<\/p>\n Innovative agricultural technologies based on AI and ML can be used for diverse purposes<\/a>, from predictive analytics for crop sustainability and demand forecasting to proactive identification of weed and crop infections and sustainable harvesting with minimized waste. Another use of new technologies in agriculture is AI-based robots. These can be applied in various ways, such as for smart cattle herding.<\/p>\n <\/p>\n Simply put, AI-driven farming innovations offered on the market can be divided into two groups: the Swiss army knife type that provide a diverse set of functionality and more specific solutions with limited yet deep specializations.<\/p>\n Now, think of a solution generating data-driven analytics and farm-level reports that help agriculturalists assess the performance of field inputs on crops and reveal the weaknesses of the crop management process. The value for an agricultural business may hardly be overestimated. Yet mass adoption of AI-based<\/a> farming innovations is still being undermined by end users\u2019 lack of trust in algorithms in general and the black box problem in particular. The good news is that explainable AI is gaining momentum, which means more and more farmers will embrace AI soon.<\/p>\n Explore how Intellias helped build platform-based crop management software to promote sustainable farming<\/p>\n It\u2019s impossible not to mention the blockchain when speaking of key innovations in agriculture and farming. Blockchain and distributed ledger technology<\/a> (DLT) are already being used at almost every stage of the agricultural business cycle to:<\/p>\n To give an idea of how developing trends in agriculture work in practice, let\u2019s look at how a blockchain helps farmers manage insurance policies.<\/p>\n Largely because farming has always been vulnerable to unpredictable weather and climate changes, insurance services are crucial for the financial health of an agricultural business.<\/p>\n If you\u2019ve ever worked with farms in harsh climates or within impoverished communities, you know that claiming indemnity payments becomes a monthly or even weekly routine. And that\u2019s where new technologies in agriculture and the blockchain come into play, reducing risks for stakeholders, speeding up claims processes, and eliminating human mistakes.<\/p>\n With a blockchain-based smart contract, indemnity payments can be automatically triggered once contractual conditions are met. For example, if monthly precipitation doesn\u2019t reach a particular level specified in a contract, a farmer can automatically get an indemnity payment within a contracted period. Smart contracts developed with distributed ledger technology make the indemnity payment process quick, easy, and safe.<\/p>\n The value of the agricultural robotics industry is likely to quadruple by 2025<\/a>, growing from $4.6 billion in 2020 to over $20 billion. An industry that has always been associated with extensive use of manual labor is now taking a course on robotization and automation. This and other future trends in agriculture demonstrate the challenges of a growing global population, which leaves farmers no choice but to become more efficient.<\/p>\n <\/p>\n Today, automated machinery including drones, watering machines, and smart tractors are used to substitute manual labor for repetitive tasks and processes. The result is an optimization of human resources used in harvesting, fruit picking, spraying, planting, seeding, and weeding.<\/p>\n Take GPS-led remotely controlled vehicles used for harvesting as an example. A single operator can manage and control dozens of these vehicles at the same time. Eventually, overall productivity is improved while the risks of human-induced mistakes are minimized.<\/p>\n Innovations in agriculture are not only about machines replacing manual labor. They\u2019re also about the automation of processes and instant actions triggered by particular data-driven insights.<\/p>\n Here\u2019s an example: UAV crop monitoring<\/a> goes through several stages. First, a farmer selects objects and lands to be monitored by drones. Then the drones collect images of those objects and lands. Next, these images are sorted so only relevant data remains. After the selected data is analyzed<\/a>, reports and insights are generated. Finally, automated actions are triggered (e.g. field irrigation) with no minute wasted or mistake made. This is how agriculture industry trends work in practice.<\/p>\n Global climate change has led to extreme weather conditions which, in turn, result in a shortage of land for agricultural purposes. Governments and businesses are joining efforts to bring innovative ideas on agriculture to populated urban areas, deserts, and other lands where traditional farming practices and approaches do not work.<\/p>\n Learn how Intellias helped to develop a vertical farm automated lighting solution and growth monitoring system<\/p>\n Controlled environment agriculture (CEA) is one of the key new technologies in agriculture that will define the future of sustainable farming. CEA uses just the right mix of light, humidity, air temperature, and nutrients to ensure that plants get everything needed wherever they are growing.<\/p>\n The agriculture trend of indoor and vertical farming is made possible by CEA. Indoor and vertical farms can be built in almost any part of the world, regardless of the surrounding geography and climate conditions.<\/p>\n Imagine a large agricultural complex producing diverse types of crops in the middle of a desert, or a farm inside a space station. This is no longer science fiction. Future trends in agriculture are already here. Besides the ability to grow crops in almost any climate and weather conditions, the benefits of vertical farming<\/a> include:<\/p>\n <\/p>\n Vertical farming is directly linked to new technologies in agriculture, such as hydroponics and aeroponics, that make it possible to grow plants using liquid nutrient mediums or steam instead of soil.<\/p>\n Another sustainable agricultural technique used in vertical farming is aquaponics, which refers to the simultaneous cultivation of plants and fish. In aquaponics, plants purify the water for fish while fish supply the plants with nutrients.<\/p>\n\n
Why IoT innovations in agriculture will make you forget conventional farming<\/h2>\n
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Embrace the inevitable: AI, ML, and predictive analytics in AgriTech<\/h2>\n
How the blockchain brings innovative ideas on agriculture to life<\/h2>\n
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Automation trends in agriculture break new ground<\/h2>\n
The future is here: vertical and indoor farming<\/h2>\n
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