EGU23-14459, updated on 10 Jan 2024
https://doi.org/10.5194/egusphere-egu23-14459
EGU General Assembly 2023
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Developing and testing a validation procedure to successfully use on-the-move sensors in urban environments

Francesco Barbano1, Erika Brattich1, Carlo Cintolesi1, Juri Iurato2, Vincenzo Mazzarella3, Massimo Milelli3, Abdul Ghafoor Nizamani1, Maryam Sarfraz1, Antonio Parodi3, and Silvana Di Sabatino1
Francesco Barbano et al.
  • 1University of Bologna, Physics and Astronomy, Bologna, Italy
  • 2Iotopon Srl, Cagliari, Italy
  • 3CIMA research Foundation, Savona, Italy

With the increasing attempt to empower citizens and civil society in promoting virtuous behaviours and relevant climate actions, novel user-friendly and low-cost tools and sensors are nowadays being developed and distributed on the market. Most of these sensors are typically easy to install with a ready-to-use system, while measured data are automatically uploaded on a mobile application or a web dashboard which also guarantees secure and open access to measurements gathered by other users. However, the quality of the datum and the calibration of these sensors are often ensured against research-grade instrumentations only in the laboratory and rarely in real-world measurement. The discrepancies arising between these low-cost sensors and research-grade instrumentations are such that the first might be impossible to use if a validation (and re-calibration if needed) under environmental conditions is not performed. Here we propose a validation procedure applied to the MeteoTracker, a recently developed portable sensor to monitor atmospheric quantities on the move. The ultimate scope is to develop and implement a general procedure to test and validate the quality of the MeteoTracker data to compile user guidelines tailored for on-the-move sensors. The result will evaluate the feasibility of MeteoTracker (and potentially other on-the-move sensors) to integrate the existing monitoring networks on the territory, improve the atmospheric data local coverage and support the informed decision by the authorities. The procedure will include multi-sensor testing of all the sensor functionalities, validation of all data simultaneously acquired by several sensors under similar conditions, methods and applications of comparisons with research-grade instruments. The first usage of the MeteoTracker will be also presented for different geographical contexts where the sensors will be used for citizen science activities and develop a monitoring network of selected Essential Variables within the HORIZON-EU project I-CHANGE (Individual Change of HAbits Needed for Green European transition).

How to cite: Barbano, F., Brattich, E., Cintolesi, C., Iurato, J., Mazzarella, V., Milelli, M., Nizamani, A. G., Sarfraz, M., Parodi, A., and Di Sabatino, S.: Developing and testing a validation procedure to successfully use on-the-move sensors in urban environments, EGU General Assembly 2023, Vienna, Austria, 23–28 Apr 2023, EGU23-14459, https://doi.org/10.5194/egusphere-egu23-14459, 2023.