A low-cost environmental radiation monitoring system implemented in Brazil

Open Access

Issue		Radioprotection Volume 60, Number 2, Avril-Juin 2025


Page(s)		195 - 202
DOI		https://doi.org/10.1051/radiopro/2024052
Published online		13 June 2025

Bossew P, Kǔca P, Helebrant J. 2020. Mean ambient dose rate in various cities, inferred from Safecast data. J Environ Radioact 225. [Google Scholar]
Bottollier-Depois J, Allain E, Baumont G, Berthelot N, Darley G, Ecrabet F, Jolivet T, Lebeau-livé A, Lejeune V, Quéinnec F, Simon C, Trompier F. 2019. The OpenRadiation project: monitoring radioactivity in the environment by and for the citizens. Radioprotection, 54 (4): 241–246. [CrossRef] [EDP Sciences] [Google Scholar]
Brown A, Franken P, Bonner S, Dolezal N, Moross J. 2016. Safecast: successful citizen-science for radiation measurement and communication after Fukushima. J Radiol. Prot 36: S82. [CrossRef] [PubMed] [Google Scholar]
De Souza P, Anjomshoaa A, Duarte F, Kahn R, Kumar P, Ratti C. 2020. Air quality monitoring using mobile low-cost sensors mounted on trashtrucks: methods development and lessons learned. Sustain Cities Soc 60: 102239. [CrossRef] [Google Scholar]
Hultquista C, Cervonea G. 2019. Comparison of simulated radioactive atmospheric releases to citizen science observations for the Fukushima nuclear accident. Atmos Environ 198: 478–488. [CrossRef] [Google Scholar]
Kawabe L, Ghilardi-lopes N, Turra B, Wyles K. 2022. Citizen science in marine litter research: a review. Mar Pollut Bull 182. [Google Scholar]
Koyama S, Miyamoto Y, Fujiwara A, Kobayashi A, Ajisawa K, Komori H, Takei Y, Nanto H, Kurobori T, Kakimoto H, Sakakura M, Shimotsuma Y, Miura K, Hirao K, Yamamoto T. 2010. Radiation monitoring utilizing solid state dosimeters. Sens Mater 22 (7). [Google Scholar]
Manzano L, Boukabache H, Salvatore D, Heracleous N, Murtas F, Perrin D, Pirc V, Alfaro A, Zimmaro A, Silari M. 2021. An IoT LoRaWAN network for environmental radiation monitoring. IEEE Trans Instrum Meas 70. [Google Scholar]
Odenwald S. 2019. Smartphone sensors for citizen science applications: radioactivity and magnetism. Citizen Sci: Theory Practice 4 (1): 18. [CrossRef] [Google Scholar]
Oliver K, Benoit M, Muller A, Schmeling S. 2019. Smartphone and tablet-based sensing of environmental radioactivity: mobile low-cost measurements for monitoring, citizen science, and educational purposes. Sensors 19: 4264. [CrossRef] [PubMed] [Google Scholar]
Ramos M, Razuck F. 2021. Elaboration of an App for calculations of dosimetric quantities aiming at radiological protection. J Phys Conf Ser 1826: 012043. [CrossRef] [Google Scholar]
Rochedo E, Salles K, Prado N. 2013. Assessment of the external exposure of the Brazilian population to natural background radiation. IX Latin American IRPA Regional Congress on Radiation Protection and Safety. IRPA. [Google Scholar]
Souza, E. 2017. Rastreamento gama terrestre: estimativa da exposição da população à radioatividade em áreas urbanas. Tese (Doutorado). Instituto de Radioproteção e Dosimetria (IRD). Rio de Janeiro. [Google Scholar]
Sunny A, Zhao A, Kanteh S. 2020. Low-cost IoT-based sensor system: a case study on harsh environmental monitoring. Sensors (Basel) 21 (1): 214. [CrossRef] [PubMed] [Google Scholar]
Taobao. Available at: https://vn.world.taobao.com/item/774996919333.htm?spm=a21wu.24122187.recommend-goods.5>. last accessed on: 11/01/2024. [Google Scholar]
Viana B, Souza C, Moreira E. 2020. Why the views of latin American scientists on citizen science as a tool for pollinator monitoring and conservation matter? Neotrop Entomol, Aug. [PubMed] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.