Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4759070 | Computers and Electronics in Agriculture | 2017 | 8 Pages |
Abstract
Dual probe heat pulse (DPHP) sensors are economical solutions for soil moisture measurements. However, in agriculture fields the temperature significantly changes from time to time during 24Â h, which affects response of the soil moisture sensor. This paper, analyzes and models the error produced in the response of the DPHP sensors due to variation of the soil temperature. For this purpose, first effect of the soil temperature on the response of the sensor is studied using eight different soil samples. Accordingly, the existing soil moisture model, used for DPHP devices, is modified and used for the temperature compensation. A low power DPHP sensor comprising one heater probe and one temperature sensor probe, placed 0.003Â m apart, is fabricated. A low power, automated system, dissipating average power of 30Â mW, is also developed for the field measurements to validate the proposed model. The developed system is deployed in the field and soil moisture is measured for 38Â h at every 1Â h interval. Field measurements indicates that volumetric moisture content measured without temperature compensation leads to error of about 3% and with temperature compensation the error is reduced to 0.5%.
Related Topics
Physical Sciences and Engineering
Computer Science
Computer Science Applications
Authors
Vinay S. Palaparthy, Devendra N. Singh, Maryam Shojaei Baghini,