Inter-comparison of environmental low-cost sensors on Arduino platform
Low-cost sensors for relative humidity, pressure, and ambient temperature have begun to be used regularly for different applications in which the measurement or control of systems or processes is required using an affordable technology. However, in most cases, reliable information about their performance, capabilities, and limitations is not available. In this work, we aim to establish a systematic comparison between different sensors widely used in conjunction with the Arduino platform, such as the DS18b20, DHT11, BMP180, and BME280 sensors. Laboratory and field trials were performed to determine linearity, accuracy, precision, resolution, response times, and response to loss of power. The results indicate that these devices, despite having a very low cost, can provide relatively reliable information, taking into account their manufacturing characteristics and the specific use required. In turn, this work offers useful information to choose the sensor that best suits a particular project.Abstract
Contributor Notes
ABOUT THE AUTHORS
Ariel Scagliotti. Professor in physics from the University of General Sarmiento (Buenos Aires, Argentina), Ph.D. fellow of the National Research Council of Argentina (CONICET) and assistant professor in University of General Sarmiento. Has experience in low-cost technology development applied to environmental sciences and with educational purposes. Also has research experience on air pollution modeling and meteorological analysis.
Guillermo Jorge. PhD in physics from the University of Buenos Aires, independent researcher of the National Research Council of Argentina (CONICET) and the National University of General Sarmiento (Buenos Aires, Argentina). He has research experience in experimental materials physics, sensor design, low temperature physics, physics in high magnetic fields, thermodynamic properties and electrical transport, among others. Also focused on technical-social issues, environmental impact and renewable energy.