Agricultural Apps Benefits Farmers in One Click

Top Tech Trends Changing The Agriculture Sector

Farming technology is transforming the agricultural industry’s operational procedures and expectations with the available heavy dose of innovations and disruption. Like any other tech-transformed sector, the farm space needs to cope with the evolving working styles, equipment updates, and the demand for quick outcomes. However, unlike other sectors, agriculture also has to contend with using such technology to radically transform how food is manufactured, sustain the population, and save the environment. Agriculture digitalization is based on the growth and implementation of new manufacturing tools and machines. The coming agricultural revolution would be a green one, with science and technology at its heart. Here are a few techniques that drive the methods of smart farming.


The significant change in the process of agricultural manufacturing is the increasing role of automation technology, which improves productivity by decreasing the need for human labor. This can take several forms, from automated cars to developing task-specific robots that automate components of the manufacturing process.


Hydroponics is a kind of hydroculture which uses mineral nutrient alternatives in a water solvent to grow crops without soil. Along with enhanced revenues from enhanced returns, the market is anticipated to be driven up by the growing demand for salad plants and increasing need for global food security. As reported by Research and Markets, by 2020, the market value of hydroponics is expected to expand by $27.33 billion.

3D- Printing Technology

In the future, 3D printing technology will be critical to how individuals communicate with food. Supermarkets are already testing customized cakes to 3D print, caterers/restaurants offer printed desserts. Some even argue that every home will quickly have a 3D food printer. It is estimated that the market for 3D printed food will reach $425 million by 2025. This is a niche and innovative method; companies are unlikely to transform product lines into printing, but it provides food companies the chance to study the customization of their mass-produced, commoditized products.

Precision Farming

Precision farming, or precision farming, is an umbrella concept for IoT-based methods that enhances control and accuracy of agriculture. Simply put, crops and cattle receive exactly the therapy they need, determined by superhuman precision machines. Farmers can increase the efficiency of pesticides and fertilizers or use them selectively by accurately evaluating differences in a field. Methods of precision farming make use of machine learning techniques and the Internet of Things –will optimize soil and water use for various crops and farming circumstances, reduce expenses, and increase output while decreasing freshwater use. Applying big data analytics to insurance stats on farming circumstances and returns will reduce the hazards to farmers trying fresh plants and farming techniques.

3D Ocean Farming: A Vertical Approach to Aquaculture

3D ocean farming consists of horizontal ropes on the surface of the water, attached to hurricane-proof floats, connecting underwater lines supporting plants of seaweed and interspersed with hanging net enclosures to grow scallops and molds. Also linked to the ground ropes, clam and oyster cages are sitting on the seafloor. From the coast, this type of farm is scarcely noticeable. The farm also offers important non-edible advantages: it acts as a protector for storm-surge and as a habitat for marine wildlife.

Agricultural Drones

Agriculture is one of the main verticals incorporating ground and aerial drones for crop health assessment, irrigation, crop tracking, crop spraying, planting, soil, and field evaluation, and other areas. Since drones collect multispectral, thermal and visual imagery while flying, the data they collect provides farmers insight into a broad spectrum of metrics such as crop health indexes, plant counting, yield prediction, plant height measurement, survey reports, stockpile measurement, and drainage mapping.


With growers facing water scarcity owing to drought, aquifer depletion, and water allocations, innovations in irrigation techniques are becoming even more essential. Telemetry is one latest progress. Products now enable growers to monitor and regulate almost every facet of their irrigation operation remotely. The systems are saving on cars, water, time, fuel, and wear and tear. Soil moisture monitoring, weather data, and Variable-Rate-Irrigation (VRI) will be integrated into their systems by producers in the future.

Robotics: Connected tractors

The tractor and implementation are important tools for the agricultural industry’s growth. The use of these agrarian instruments is optimized by connectivity and localization techniques (GPS). This involves help from drivers in optimizing paths and shortening harvesting and crop treatment while decreasing energy consumption. Tight surveillance and control of crop treatments by sensors enables significant effectiveness and productivity gains.


The capacity of IoT technologies to cope with and communicate with legacy technology is another import necessity of the agricultural industry. Although most of the farming equipment sold today incorporates digital capacities, most of the fleet continues pre-digital tractors, tools, and machines that will take a long time to replace. Agricultural technology’s lifespan mainly outplays communication technologies’ lifespan.

Based on a more accurate and resource-efficient strategy, smart farming enhanced by these techniques has a real opportunity to achieve a more productive and sustainable agricultural output.

How Agriculture Apps Benefit Farmers ??

Smartphones have penetrated all the sectors beyond imagination and agriculture is a sector that is undergoing a leap through advancements with the advent of mobile phone technology. This has led to turning the agribusinesses to various software and other hardware digital farming tools. Agriculture technology, or AgTech as it is popularly known, has proven to ease the operations involved in farming from farms to tables. It has made it possible to monitor how farmlands are tilled and harvested, right on the palm through apps. Modern technology in agriculture is more extensive that is not just limited to mobile apps but a variety of systems that automate farming processes reducing the need for human labor.

Although there are many smart farming solutions, mobile apps enable consistent and straightforward solutions. According to a study conducted by Farm Journal Media, 59 percent of farmers use smartphones, whereas 44 percent use tablets. In this scenario, mobile apps will help make a smart move while stepping into Agriculture 2.0. When these apps allow the farmers to monitor farmlands remotely by providing up-to-date information about cropping, it also provides market data and marketing strategies.

Managing the entire farming operations, including harvesting, spraying, and playing has become convenient with just a click of a button with some cloud-based management app. The agricultural app makes it easy for farmers to locate tractors that are nearer by browsing through thousands of tractor listings to cater to specific needs. Helping farmers to improve operations and maximize profits, these apps provide with accurate, location-specific weather conditions. The apps can give suggestions on the right conditions to carry out the associated operations in an instant. The intuitive apps offer a platform to create and share geo-located notes, research historical weather trends, and more.

Also, some apps establish the connection between farmers and trusted advisors instantaneously. Apart from feeding information regarding the growth of crops, they also help users identify plants and differentiate weeds by specifying characteristics based on leaves, flowers, and stems. Consequently, allowing farmers to make nutrient application plans, thereby obtain abundant nutrition yields. These applications build the confidence of the farmers to make a smart agricultural shift.

Source — Enterprise Technology Review

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