Characteristics of promising agricultural technology

Promising agricultural technologies are moving into the future by leaps and bounds. They offer substantial help for farmers in their work for optimizing inputs, simplifying farm management, and increasing productivity. Increased yields, as well as reduced maintenance costs, help boost profit margins.

What are the characteristics of agricultural goods?

The production and marketing of agricultural goods poses certain peculiar problems for the producers. This is mainly because the agricultural goods possess certain peculiar characteristics. These are agricultural goods are quickly perishable and these are bulky in nature.

What are some problems with agriculture?

Another peculiar problem in agricultural production is that there is always litigation between the farmers over the land territory and other such issues. As a result, they may have to spend lot of time, money and efforts to win legal battles.

What is drone technology in agriculture?

Drone technology will give the agriculture industry a high-technology makeover, with planning and strategy based on real-time data gathering and processing. PwC estimates the market for drone-powered solutions in agriculture at $32.4 billion. Following are six ways aerial and ground-based drones will be used throughout the crop cycle:

In recent years, the adoption of digital technologies in precision agriculture has been adjusting the ways that farmers treat crops and manage fields. One doesn’t have to be an expert to see how the technology has changed the concept of farming making it more profitable, efficient, safer, and simple. Among other technologies, farmers have picked five they deem to be the best:

1. GIS software and GPS agriculture
2. Satellite imagery
3. Drone and other aerial imagery
4. Farming software and online data
5. Merging datasets

As a result, modern farms get significant benefits from the ever-evolving digital agriculture. These benefits include reduced consumption of water, nutrients, and fertilizer, reduced negative impact on the surrounding ecosystem, reduced chemical runoff into local groundwater and rivers, better efficiency, reduced prices, and many more. Thereby, business becomes cost-effective, smart, and sustainable. Let’s discuss some of these agricultural technologies.

GIS-based agriculture

Since fields are location-based, GIS software becomes an incredibly useful tool in terms of precision farming. While using GIS software, farmers are able to map current and future changes in precipitation, temperature, crop yields,  plant health, and so on. It also enables the use of GPS-based applications in-line with smart machinery to optimize fertilizer and pesticide application; given that farmers don’t have to treat the entire field, but only deal with certain areas, they are able to achieve conservation of money, effort, and time.

Another great benefit of GIS-based agriculture is the application of satellites and drones to collect valuable data on vegetation, soil conditions, weather, and terrain from a bird’s-eye view. Such data significantly improves the accuracy of decision-making.

Satellite-derived data

Predicting yields, as well as conducting almost real-time field monitoring, with a view to detect a variety of threats with satellite data in service has never been so easy.

Data from the sky – Drones

With the assisstance of drones, farmers have an opportunity to define crop biomass, plant height, the presence of weeds, and water saturation on certain field areas with high precision. They deliver better and more accurate data with higher resolution in comparison to satellites. When they are locally operated, they provide valuable information even faster than scouts. Drones are also considered to be unrivaled aides in the battle against insects; the invasion is prevented by applying the insecticide on the hazard areas using drones, all while reducing the likelihood of direct exposure leading to chemical poisoning.

Despite the fact that drones are easy to use and are capable of collecting large amounts of data within short time frames, there are still challenges when using them on a constant basis as they don’t come cheap. Drones are almost helpless where mapping or monitoring of large areas is required, and it is better to complement the technology with satellite monitoring among already mapped areas, where specific zones need to be cross-checked.

EOS Crop Monitoring

To simplify field observation, EOS has designed Crop Monitoring – a digital Platform that employs satellite monitoring in order to speed up a farmer’s decision-making so that he does not miss a crucial point of field treatment. Here are some of the features available in the platform:

1. Crop Monitoring allows the use of the Normalized Difference Vegetation Index (NDVI) for tracking crop health. This index monitors the amount of chlorophyll in plants which makes it possible to obtain information about their condition. When you have higher NDVI values, you have healthier vegetation, since the more chlorophyll available to the plant, the healthier it is.
2. Another important feature of Crop Monitoring is a Scouting app. It is both a mobile and desktop app that employs digital field maps. While using this app, a farmer is able to assign multiple tasks to scouts in few clicks. Add a field, drop a pin, set a task. Once the task is assigned, a scout moves directly to the selected location and checks problem areas at the site, inspects pest activity, performs weed mnagement activities etc., immediately making records in the app. This allows inspection of the problem areas only when needed, thereby saving ample time to take necessary preventative actions.
3. Weather analytics. By analyzing weather data in-line with the data on plant condition obtained from satellite imagery, farmers can precisely apply irrigation and prevent frost or heat damage. For example, one of the best methods to avoid drought issues is drip irrigation with automatic or manual valve control, thus the farmer can apply the required amount of water to dry areas.
4. The strongest benefit of Crop Monitoring is the fact that it is based on satellite imagery. It helps to analyze field conditions or the state of specific areas and extract valuable information on-the-fly, thereby speeding up optimal reaction time as well as making reliable decisions – what crops to plant, when to harvest, how to effectively plan for the next season, what amount of nutrients and fertilizers apply, and many more.

Combining Data

Occasionally Crop Monitoring has to mash various data sets in order to get valuable insights for your fields. For a start, the user is able to compare the performance of his field with the average performance of all fields in the given district. To face this challenge, multiple datasets obtained from all of the fields in your district are compared. For now, such comparisons are only available using the NDVI vegetation index, but in the near future we will expand the analytical opportunities of the Platform by adding new indices. The next valuable feature that employs numerous data sets is weather data analysis. It is comprised of the following options:

1. Winter kill” notifies you about low temperatures that threaten your winter crops
2. Cold stress” highlights the days when the temperature dropped below -6℃ to assess the damage to early crops from frost
3. Heat stress” reflects the days with temperatures above +30℃ to assess the damage from heat stress

The feature provides the ability to monitor precipitation and temperature as well.

The Findings on Precise Agriculture

Promising agricultural technologies are moving into the future by leaps and bounds. They offer substantial help for farmers in their endeavor for optimizing inputs, simplifying farm management, and increasing productivity. Increased yields, as well as reduced maintenance costs, help boost profit margins. In the context of smart solutions, precision agriculture offers a Swiss army knife of farming techniques for today’s, and tomorrow’s farmers.