Precision Farming in Agricultural Sector Research Reports and Dynamics


Farmers make use of Precision farming as a means for efficient farm management. Space optimization is of utmost importance due to the limited amount of arable land in a region. Farm technologies address the global food scarcity challenge.

The rising global population increases the demand for food globally. Additionally, the need for food substances with a high nutritional value has increased. Hence the farmers are making use of cultivation methods that ensure ideal output.

As opposed to conventional agricultural practices, farming has become smart and precise. The key aim of precision farming is to enhance productivity as well as profitability. The produce-based sales are reliant on the rise in production per unit of arable land. A rise in the production value will account for increased sale-based revenue.

According to the market database, methods like precise farming allow the farmer to reduce inputs and increase outputs. This technique also aids ecological sustainability by protecting natural resources. Over the past few decades, numerous technologies have been developed. Some of the key tools include a satellite positioning system, geo-mapping, variable rate technology, remote sensing, and an automated steering system. These systems can produce a high-resolution image related to field management practices.

GPS in Agricultural Industry

Satellite Positioning System (GPS) is a prominent technological segment within the Agricultural Industry. GPS is also coined as one of the most utilized forms of satellite systems used on a global scale. The technology is used in auto-steer systems. While driving along a field, GPS enables the machinery to drive along repeatable tracks with accuracy. This in turn increases the on-time performance and reduces manual errors. GPS is also used to get geo-reference information for applications like yield mapping. GPS allows the farm-based machinery to remember the traffic pattern. Moreover, the machine’s movement can be observed over the screen. Hence the farmer would have a clear perspective of the treated and untreated regions of the field.

Precision Farming in Agricultural Industry

Another important technology that plays an essential role is an Automated Steering System. This technology helps perform efficient field management through the reduction of human error. It minimizes overlapping rows. The system also allows the machinery to have better control over the equipment. Different kinds of automated field control equipment are used to provide varying accuracy levels. The most accurate automated steering system is calibrated in the centimeter scale. It makes use of real-time kinematic differential correction for a local station.

Market Research Tool for Agricultural Sector

The development of these technologies stems from the demand margins for the agricultural sector. The application of modern agricultural schemes further promotes modern farming methods. The technological advantage served by this method can be studied using Global Market Database. The market research tool can provide a comparative geographic analysis to study the industry. The platform provides free market data for the first five GMD logins.

Agribusinesses are reliant on the optimization of the supply chain. Thus, the usage of adept technologies will further upgrade productivity. Additionally, such practices are expected to reduce capital expenditure and optimize farm output. The value chain and the demand associated with the crops can be studied using market research tools.

Variable Rate Technology in Precision Farming

Variable Rate Technology is another crucial tool. It allows farmers to control the amount of farm input. This system applies inputs at a particular time to a precise location. The application procedure allows the machinery to achieve a site-specific application rate. The use of Variable Rate Technology quantifies ideal planting density. According to the market database, it ensures an improved application rate for pest protection products and nutrients. The rise in research-based funding in the agricultural sector is poised to boost the growth rate.

IoT in Agricultural Sector.

Technologies like IoT are expected to enhance the regional agricultural manufacturing capacity. The unification of technologies like remote sensing and geo-mapping has redefined modern agriculture. Geo-mapping is used by farmers to create various maps of soil as well as crop conditions. These maps are created by sensors attached to remote systems. The sensors can take data from the field to understand the soil as well as crop health. Thus, the change in properties associated with the crop environment can be studied by the farmer. Post which adequate measures can be employed.

According to the market database, the dynamics of agriculture have been changing since the start of the green revolution. The integration of these systems produces the best results. Information sharing amongst these devices is a key loophole in the design infrastructure. Technology innovators are studying this mechanism to devise suitable equipment.