Dragana Blagojević

Young Researcher, BioSense Institute

Since the early 1990s information technologies have become a crucial tool for precision farming. One of the most widespread techniques in agriculture is yield monitoring and mapping. It uses a combination of GPS technology and physical sensors to track crop yields, combine speed, grain moisture, elevation, and other relevant information in a given field. Nowadays, farmers started to see all the benefits that this kind of technology has, and which is worth to invest.

Yield monitoring allows farmers to gain valuable information about their fields and crops and at the same time develop site-specific crop management. One of the main benefits of the yield monitoring system is revealing the spatial and temporal variability in crop yields. The final products of monitoring are the yield maps which have a great impact on the decision-making process. In order to give qualitative information and represent the variation in the yield, the sensors on combine harvesters or tractors need to be perfectly calibrated with minimum systematic errors. Although, there are errors that cannot be avoided such as different swath width, inaccurate positional data, grain flow, and moisture delays, velocity errors, etc. These erroneous data must be cleaned. There is software made exactly with this purpose and can be a useful tool when dealing with an enormous amount of data as well as for understanding collected information. Once this data is cleaned, the ranges and limits for the certain crop can be implemented in other yield data.

There are four major components of yield monitoring and mapping: global positional system receiver (GPS), mass flow sensor, yield monitor, and moisture sensor. These technologies are installed on a combine harvester and are active during the harvest. The data is collected by sensors and stored in the device inside the combine. A mass flow sensor provides information that yield monitor uses to calculate how much grain is being taken into the combine continually. The moisture sensor takes the most valuable information for a farmer in various aspects. With this information, a farmer is able to secure the right market value for their crop. A GPS receiver is a remote sensor and it is used for measuring the position of combine, altitude, speed, etc. It records geo-referenced data that can be transformed into meaningful maps that the farmer can utilize. A yield monitor is located inside the cab of the combine where on the display, a farmer can see real-time information about his field and act quickly if there is any technical problem.

These devices give a user access to the complete dataset. The user can easily transfer the dataset to the personal computer and analyze it in many different software. These data can be exported in different formats depending on which software is used. The datasets include more than 20 columns that represent various characteristics of the field and soil at a certain sample point.