AE—Automation and Emerging Technologies: Noise Source Evaluation of a Real-time Soil Sensor, Part I: Static Elevation Changes

The chemical application rates of many pre-emergence herbicides as well as fertilizers are sensitive to soil organic matter content. Research was conducted to examine the e!ects of static elevation changes on a real-time soil organic matter sensor which operates on the basis of measuring the electromagnetic re#ectance of the soil surface. The soil organic matter sensor operates beneath the surface of the soil, with the sensor mounted 25 mm from the bottom of the housing shank. The signal from this sensor currently contains #uctuations which indicate di!erences of as much as 1% organic matter content, or errors of as much as 25%. This study examined the e!ects of static elevation changes on the output of a sensor which uses electromagnetic re#ectance to measure soil organic matter. This study used actual soil samples, and colour boards to examine the e!ects of static elevation changes on the sensor output. Regression analysis, using the data collected with the soil samples, showed that the strength of the relationship between the sensor output and soil organic matter remains fairly constant for di!erent elevations; and the slope of the line describing this relationship varied greatly with elevation changes. This indicates that care must be taken to ensure that laboratory tests conducted to determine the relationship between the sensor output and soil organic matter content are performed at the elevation that will be present when the sensor is used in the "eld. Colour boards were used to evaluate the results from a study on dynamic elevation changes to be evaluated. They showed that the e!ect of changing elevations is much larger when the sensor is closer to the soil surface, indicating that an attempt to determine the optimal elevation of electromagnetic re#ectance sensors above the soil surface should be conducted during the design process.