Do you want to know which trends and startups will have an impact on your business in the near future? In our AgriTech Innovation Map, you can find in-depth industry research on 950+ AgriTech companies and scaleups, as well as data-driven insights into technology-based solutions.
Agriculture must overcome numerous serious obstacles in order to feed the predicted 9.7 billion people on the planet in 2050: increasingly meat-heavy diets, degradation of agricultural land, widespread water scarcity, increasingly erratic weather, and climate change. For the future of agriculture enterprises, answering the question of how to use the next generation of technology and kick-starting the Third Agricultural Revolution is critical.
1. AgriTech Innovation Map outlines Top Innovation Trends & 8 Promising Startups
We evaluated a sample of 950+ worldwide AgriTech startups and scaleups for our in-depth analysis on the top inventions in AgriTech. This research yielded data-driven innovation intelligence that aids strategic decision-making by providing an overview of developing agricultural technology and companies. These insights were gathered from our StartUs Insights Discovery Platform, which is powered by Big Data and Artificial Intelligence and covers over 2.093.000 startups and scaleups globally. The platform instantly provides an in-depth assessment of developing innovations in a certain industry, as well as early identification of relevant startups and scaleups.
The Innovation Map below provides an overview of 8 AgriTech Innovations that have a global impact on agribusiness companies.The Innovation Map below provides an overview of 8 AgriTech Innovations that have a global impact on agribusiness companies. Furthermore, the AgriTech Innovation Map displays eight hand-picked firms, all of which are working on cutting-edge technology that will progress their respective fields.
2. Internet of Things (IoT)
IoT-based agriculture lowers crop waste and the negative environmental effects that come with it. It enables farmers to obtain the most production out of each site. Precision agriculture, which uses sensors and linked devices to solve global food security and access issues, is a cost-effective solution. Precision agriculture as a new direction in farming has been effectively fueled by the Internet of Things. This also enables farmers to acquire more precise data from sensors and drones in order to practise precision agriculture.
Semios optimizes Agriculture with a Network of Sensors
Semios, a firm established in the United States, provides a real-time platform for producers to monitor and optimise their reaction to pest, disease, and plant health situations.Semios specialises on on-site sensing, big data, and predictive analytics for permanent crops such as vines, tree nuts, and tree fruits. Semios' sensor network covers the ranch, orchard, or vineyard, allowing for real-time monitoring for optimal productivity. Furthermore, acre-specific models for pests like navel orangeworm and codling moth, as well as diseases like powdery mildew, fire blight, and Alternaria, are based on their in-field data. To optimise irrigation and improve crop and water quality, the startup also offers in-canopy evapotranspiration (ET) estimates and soil moisture monitoring.
3. Smart Farming
Traditional farming necessitates a lot of resources, such as water and money. Smart farming, on the other hand, uses technological breakthroughs to improve crop management and yield. Smart farming optimises farming processes by combining IoT and cloud-based Big Data platforms with other AI-based monitoring tools. Startups create integrated solutions to improve crop quality and cut expenses in agriculture. The system also allows for real-time data analysis and remote monitoring, among other things.
You may also like 5 Top Smart Farming Solutions Affecting The Agriculture Industry
CropX is working on a platform for integrated farm management.
CropX, an Israeli firm, uses its cloud platform to create data-driven farming solutions. Thousands of data points are analysed by the startup's technology to forecast water-uptake patterns and detect defective irrigation systems. CropX also offers self-calibrating sensors for agricultural activities monitoring. Through live monitoring, the startup's analytical tools also estimate crop demands and expected growth.As a result, the integrated solution assists farmers in optimising and automating farm management while reducing labour expenses and water use.
4. Precision Agriculture
Precision farming, also known as Site-Specific Crop Management (SSCM), uses satellite or drone imagery to improve crop and farm management tactics. This is accomplished by just farming in specific regions, reducing time and preventing unwanted pesticides from reaching the ground. By researching terrain types, multispectral photography, for example, can assist find the optimum fit for crops. For example, utilising satellite photos to examine crop health patterns, a multi-year simulation can assist avoid hazards.
Agroop is a company that specialises in crop monitoring in real time.
Agroop is a Portuguese firm that specialises in agricultural cloud management and risk analysis solutions. Stoock, its multi-sensor system, is a real-time temperature monitor as well as a weather, moisture, and hydric balance monitor for crops. Farmers use this information to standardise crop quality and analyse crop water needs through continuous sensor monitoring. By issuing timely alerts, Agroop's solutions also aid in the prevention of dangers like as plagues and infections.
5. Automation & Robotics
Farmers suffer every year as a result of labour shortages and human blunders. For farmers with big fields, harvesting and irrigation continue to be a concern. To overcome these obstacles, agricultural produce output is being increased through the development of advanced robots, automated technology, and drones by startups. Furthermore, mechanised machinery aids several elements of large-scale agriculture. A new generation of precision robotic manipulators finds, recognises, selects, and picks fresh food based on size and maturity. Furthermore, smart irrigation systems maximise crop growth as well as water usage.
6. Agrobot builds Agricultural Robots
Agrobot is a Spanish company that develops software to control robotic manipulators that locate and identify strawberries. Fruits are selected and picked by the robot based on their size and degree of freshness.Insect vacuum robots are also available from the company, which provide an efficient and cost-effective option for managing pests and improving farm operational efficiency. Machine learning (ML) techniques are embedded in the all-terrain mobile robot, allowing object classification, segmentation, and instantiation.
7. Vertical Farming
The amount of cultivable and fertile land accessible for food production is being affected by population growth and landscape utility. Many firms are developing new indoor agriculture solutions that need minimal land space. Vertical farming is one of these saviours, as it is a form of food production that uses vertically inclined surfaces to produce a large crop without the use of soil. This is accomplished through a variety of methods, including aeroponics. To thrive, aeroponics requires the correct setup and apparatus, as well as supplement nutrients. These plants have extremely sensitive root systems that are susceptible to even minor modifications, which might result in mortality.
Automated Aeroponics Technology is used by Neofarms.
Neofarms is a German firm that makes autonomous aeroponic equipment. In a household environment, this system can produce a continual production of vegetables, fruits, and greens. The device is a plug-and-play construction with inlets for storing nutritional solutions. The automated system delivers nutrients directly to the crop's roots. This effectively cuts down on the amount of time required for routine maintenance and allows for the harvesting of fresh greens directly in the user's own house.
8. Biotechnology
Increased agricultural yields and higher-quality foods are required as the world's population grows. Biotechnology provides strategic tools for the agriculture business to improve the nutritional value of crops and identify better ways to combat pests in order to meet this need. Seeds created through genetic engineering are more adaptable to less-than-ideal settings and more resistant to climate change.
MicroGen Biotech creates Biologics to improve Crop Yield
MicroGen BioTech creates biologicals to boost crop productivity, protect crops from heavy metals, and decompose organic contaminants in farms. The scaleup uses "functional microbiomes" and "high throughput screening" platform technologies to generate microbial products for remediating soil contaminants, enhancing soil fertility, and increasing agricultural productivity under stress circumstances, with the goal of feeding the world with safer food.
Discover more AgriTech Trends & Startups
AgriTech startups, like the ones included in this research, are focused on biotechnology, big data, automation, and robots. While all of these technologies contribute significantly to the advancement of agriculture, they are simply the tip of the iceberg. Simply contact us to have us check into your areas of interest if you want to learn more about agricultural technologies. To save time and improve strategic decision-making, download our free AgriTech Innovation Report for a more broad overview.
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