DSpace Collection:http://hdl.handle.net/10174/7152024-03-28T10:55:49Z2024-03-28T10:55:49ZFeasibility study of sensor or networks for air quality monitoring and climate research.de Vega, IsabelMartín, LuisaVeza, ElenaCosta, Maria Joãohttp://hdl.handle.net/10174/307022022-01-11T10:27:23Z2021-01-01T00:00:00ZTitle: Feasibility study of sensor or networks for air quality monitoring and climate research.
Authors: de Vega, Isabel; Martín, Luisa; Veza, Elena; Costa, Maria João
Abstract: To complete the feasibility study of the sensor networks for air quality surveillance and climate research, a survey has been carried out with the main air quality networks in Spain, so that they can give us their impressions about their use of nanosensors or the experiences they may have had in the development of a pilot test with nanosensors. Their experiences have helped us to be able to express an opinion regarding the possible practical application that they may have, at the same time that it serves as a comparison with the conclusions acquired once our pilot tests have been developed.2021-01-01T00:00:00ZGuide to Field Validation Campaigns with Fixed Equipments.Costa, Maria JoãoPinilla Gil, Eduardohttp://hdl.handle.net/10174/306812022-01-07T22:59:29Z2020-01-01T00:00:00ZTitle: Guide to Field Validation Campaigns with Fixed Equipments.
Authors: Costa, Maria João; Pinilla Gil, Eduardo
Abstract: The objective of this document is to serve as a guide for the correct development of experimental field campaigns for the validation of fixed equipment equipped with low-cost sensors with which we work on the NanoSen-AQM project. The correct development of the campaigns and the collection of the information indicated in this guide are fundamental to the deliverable E.6.1.1 of the project "Report on air quality monitoring campaigns" and for the product P.6.1 "Pilot experiences in air quality monitoring."2020-01-01T00:00:00ZReport about the evaluation of the results of field measurement campaigns and validation of multisensors systems.Lozano, JesusCosta, Maria JoãoBortoli, DanieleGómez, Jaimehttp://hdl.handle.net/10174/306732022-01-07T22:37:00Z2021-01-01T00:00:00ZTitle: Report about the evaluation of the results of field measurement campaigns and validation of multisensors systems.
Authors: Lozano, Jesus; Costa, Maria João; Bortoli, Daniele; Gómez, Jaime
Abstract: Deliverable E.6.2.1 describes the results obtained in the project about evaluating the performance of the developed sensor systems in field conditions: nanosensors, electronics and communications, cloud system and calibration and data processing software, accompanied by some conclusions and recommendations for future prototypes. The evaluation of the results of measurement campaigns and validation of multisensor systems has been performed following the protocols recommended by the EU Joint Research Centre and the EU Working Group on Guidance for the Demonstration of Equivalence (EC working group on Guidance for the Demonstration of Equivalence, 2010). Furthermore, the application of the protocols has allowed us to develop a validation tool (Excel Macro) designed for non-specialised users.2021-01-01T00:00:00ZReport of the information and awareness campaigns on air quality through mobile applicationsVeza, ElenaFerrando, HaritzLozano, JesusGómez, JaimePalomeque, SergioCosta, Maria JoãoAlonso, Raimundohttp://hdl.handle.net/10174/306582022-01-07T22:10:35Z2021-01-01T00:00:00ZTitle: Report of the information and awareness campaigns on air quality through mobile applications
Authors: Veza, Elena; Ferrando, Haritz; Lozano, Jesus; Gómez, Jaime; Palomeque, Sergio; Costa, Maria João; Alonso, Raimundo
Abstract: The NanoSen-AQM project faces the challenge of monitoring ambient air pollution and reporting air quality to the public in real time in a sustainable way. The objective is to develop an electronic system based on low cost and low consumption sensors and to validate the system in different locations in the Sudoe territory, with the comparison of standard certified analyzers of air pollutants.2021-01-01T00:00:00Z