Although often considered traditional, the agricultural sector is becoming a high-tech industry according to the development of machinery and growing startups. New features such as smart & precision farming, crop efficiency, and vertical farming will lead to breathe fresh air into the region. Growing population, urbanization, climate change, and globalization are some of the mega-trends that are affecting the agricultural sector, which is being contacted using surveillance satellites and analytics software.
We have showcased more than 950 startups in the agritech industry and identified several innovative areas that will significantly impact the industry in the years to come. In 2017, agritech funding reached $ 10.1 billion. In order to provide comprehensive information on emerging technologies and highlight existing collaborative opportunities, we have decided to demarcate the most destructive of these startups.
Precision Farming
Although proper cultivation is linked to smart farming, the idea goes further. The concept of farm management is based on the observation, measurement, and response of inter-field differences in crops to Precision Agriculture (PAA) or Site-Specific Crop Management (SSLCM).
Accurate decisions are made with the help of big data analytics, robotics, and sensor technologies to optimize revenue from inputs while conserving resources. As these decisions are made at each stage of the farming process, pivoting and immediate changes are needed to reduce costs, maximize profits, and initiate the cultivation of the proposed plants.
Vertical Farming
Cultivation has already been found in city campuses, school buildings, and government city buildings. Creative forms of vertical farming include shipping container cultivation, roof cultivation, and skyscraper cultivation, and mixed utility buildings. The idea is to copy the entire environment through irrigation systems, lighting supplements, oxygen and other available gases. However, it should be noted that initially, such a farm must include sensor solutions and management software.
For example, aeroponics makes aware people about how to grow vertical crops by building vertical fields. This is a very clear trigger for the concept of indoor farming for personal use. Highly productive equipment reduces logistics costs and significantly increases area efficiency.
Smart Farming
An important value of smart farming lies in making fields and farms more efficient, voiced by wheat thresher manufacturers India. Developing technologies in the region include software solutions, optimization tools, and automation appliances capable of transforming commercial and small farms by making a gain from available land. The main consequences of this approach are the increase in production policy, resource conservation, and cost limitation.
Custom irrigation software service provides services that increase crop production and save water and energy while protecting the environment. By creating irrigation maps, farmers can automatically apply the right water amount to different areas on the same land.
Robotics & Automation
Innovative robotics, automated machinery and drones are crucial to increase agricultural production capacity in the future, articulated by Best Rotavator manufacturers and suppliers in India. Automated large machines can capture many aspects of large-scale agriculture.
The new generation of accurate robotic manipulators can detect and select products & pick and choose depending on their size and level of maturity. In addition, the automated irrigation system optimizes crop growth and water use.
Internet of Things (IoT)
IoT solutions have long penetrated the agricultural industry, allowing small and large farms to optimize their processes without wasting unnecessary resources. Technologies developed from the Internet of Things increase field cost efficiency, providing farmers with instant information on irrigation equipment, soil moisture, crop growth and fertilizer use.
90% of startups active in this branch of agritech do so and we introduce the mechanization process of classic farming by observing the sensor technologies and solutions integrated with the current farming process. This process provides the availability of a large number of measurements, which affects strategic decision making in the second stage.
Biotech
Although most technologies focus on improving agricultural conditions, this innovative area is dedicated to the roots of agriculture that crop. Seed and chemical companies are developing seeds that can operate in many variable conditions, while at the same time adapting to the current climate rather than the normal environment. In addition, technologies and biological algorithms are being developed to fight weeds and produce crops that can destroy pests, verbalized by mud loader manufacturers in India.
High throughput screening and functional microbiomes platform technologies are used to address soil pollution, improve soil fertility and develop microbial products to increase agricultural yields under stressful conditions.
Big Data and AI
Innovative growers are switching to a data-based approach because they offer a much wider range of measurements to track crops – from measuring every centimetre of land to counting the number of seeds to defining the number of chemicals and fertilizers. Big Data allows experts to record changes in climate, soil structure and crop efficiency and convert them into result-based value. In this way, farmers are ready to receive automatic hints and recommendations to improve efficiency and business operations, stated by straw reaper parts manufacturer.
Agristartups provide animal health care solutions to the agricultural sector. It is a wearable device that mounts to an animal’s ear or collar and monitors performance, temperature, heart rate, and pneumonia symptoms. The solution sends immediate alerts if anything goes wrong with any animal on the farm and saves event history for future access. These solutions stabilize livestock health monitoring and, as a result, increase productivity.
Satellites and Drones
Farmers are already integrating drones and satellites into their daily operations to measure and monitor farms, create topographic maps, and control cultivation and seed quality. However, drones and satellites are capable of accurately displaying mapping of plant biological parameters or fertilizer application – a valuable diagnostic data. Drones allow large areas to be covered by remote sensing, monitoring, and control – simplifying farmers’ lives and increasing efficiency in terms of cost and time consumption.
Drones and Artificial Intelligence (AI) enables farmers to grow their crops most efficiently and cost-effectively, enlightened by raptor machinery manufacturer. Hypersonic cameras set up on drones show changes in water and fertilizer use, crop yields and the emergence of pests. AI software analyzes these images, notifies farmers of changes and makes predictions.
Final Thoughts
The agribusiness industry is changing rapidly as it attracts more investors and big corporations in terms of opportunities, leading to a bigger transformation. Optimized output, low cost, and innovative machines help farmers to maximize their operating profit. Since the innovative areas we have described in this crash are only one part of the technologies affecting the agricultural industry, we have no doubt that agritech has not yet reached its peak. Sensor technology and 3D printing make the industry even more innovative. Companies that partner with active startups emerge as industry leaders to help innovate and streamline their business model to achieve competitive advantage.
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