EGU26-8445, updated on 14 Mar 2026
https://doi.org/10.5194/egusphere-egu26-8445
EGU General Assembly 2026
© Author(s) 2026. This work is distributed under
the Creative Commons Attribution 4.0 License.
Poster | Tuesday, 05 May, 16:15–18:00 (CEST), Display time Tuesday, 05 May, 14:00–18:00
 
Hall X5, X5.282
Comparative analysis of atmospheric parameters (temperature, humidity, and rainfall) using local and modern weather monitoring systems.
Wirnsungrin Timothy Ndzeyebi1, Mani Miegue Estelle1, Florence Bigot-Cormier2, Fabrice Jouffray2, Julien Balestra2, Alessandra Robodetti2, Marie Rose Koh Minfele2, and Benoit Landry Messende Mba2
Wirnsungrin Timothy Ndzeyebi et al.
  • 1Government Bilingual Practicing High School Yaounde Cameroon (timobless2015@gmail.com)
  • 2Laboratoire Géoazur, Université Côte d'Azur, Sophia Antipolis, Valbonne, France

AUTHORS: WIRNSUNGRIN TIMOTHY NDZEYEBI AND MANI MIERGUE ESTELLE

SCHOOL ADDRESS: GOVERNMENT BILINGUAL PRACTICING HIGH SCHOOL YAOUNDE, CAMEROON

P.O. BOX 834 YAOUNDE

timobless2015@gmail.com and manimiergueestelle@gmail.com

ABSTRACT:

Measurement of atmospheric parameters is crucial for weather forecasting, future studies, and understanding climate change. This study explores the use of locally sourced materials such as ARDUINO sensors (to measure temperature and humidity) and a rain gauge using graduated Coca-Cola bottles by our school club named Meteo‒Eau Horizon.

On September 24th, 2025, with the assistance of resource persons who were Doctorate students from the University of Yaoundé 1, we built four Arduino sensors and positioned them in four zones within the school premises, collecting temperature and humidity data for eight weeks. This exercise was conducted every Wednesday from 1:30 pm in the four different zones.

On October 1st, 2025, students constructed rain gauges and positioned them in their various homes, collecting daily rainfall data in quarters such as Chateau, Bonamoussadi, Melen, Obili, Carousel, Emia, and Mokollo. Data collection started on October 7th, 2025, and ended on November 7th, 2025.

Eight different sites were identified, and with the aid of a GPS, a location map was created. Data were analyzed and presented using line graphs (temperature and humidity) and multiple bar charts (rainfall).

Findings show that temperature and humidity vary within the school premises. Zone one, close to the weather station, had similar data to the modern weather station. Zones two, three, and four had slightly varied data. Rainfall data revealed variations within Yaoundé, with some quarters recording higher quantities than the station.

This research highlights the potential of integrating local and modern techniques for enhanced weather monitoring and contributes to understanding weather monitoring approaches in schools.

Keywords: Atmospheric parameters, Arduino sensors, Climate change, Weather monitoring.

How to cite: Timothy Ndzeyebi, W., Miegue Estelle, M., Bigot-Cormier, F., Jouffray, F., Balestra, J., Robodetti, A., Rose Koh Minfele, M., and Landry Messende Mba, B.: Comparative analysis of atmospheric parameters (temperature, humidity, and rainfall) using local and modern weather monitoring systems., EGU General Assembly 2026, Vienna, Austria, 3–8 May 2026, EGU26-8445, https://doi.org/10.5194/egusphere-egu26-8445, 2026.