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All Journal IAES International Journal of Artificial Intelligence (IJ-AI) Journal of Applied Geospatial Information Journal of Information Technology and Computer Science Jurnal ULTIMA Computing Physical Activity Journal (PAJU) Jurnal Keperawatan GSH IIJSE
Santoso, Bayu
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Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Environmental Science Health Professions Nursing Physics Public Health Social Sciences Other

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Journal : Journal of Applied Geospatial Information

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Design of IoT-Based Temperature Monitoring System for Automated Inhomogeneity Measurement Saragih, Dearninta A. P.; Tarigan, Kerista; Humaidi, Syahrul; Abdulmajid, Muhammad W.; Santoso, Bayu
Journal of Applied Geospatial Information Vol. 8 No. 1 (2024): Journal of Applied Geospatial Information (JAGI)
Publisher : Politeknik Negeri Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30871/jagi.v8i1.7819

Abstract

Badan Meteorologi, Klimatologi, and Geofisika (BMKG): For weather and climate observations, the Meteorology, Climatology, and Geophysics Agency operates 1,285 digital and automated instruments across Indonesia. These instruments need regular calibration as required by Law No. 31 of 2009 on Meteorology, Climatology, and Geophysics. BMKG maintains a calibration laboratorylaboratory in Medan, North Sumatra, complying with ISO/IEC 17025:2017 standards, which ensure the quality of measChamber inhomogeneity, which affects temperature stability, is an important factor in calibration. ibration. To address this, a study designed an IoT-based temperature monitoring system using nine DHT22 sensors to measure chamber temperature inhomogeneity. The IoT system measured an inhomogeneity value of 0.9 0.9 °C, matching standard results using Aqara sensors. The designed system measured inhomogeneity at 0°C through the T6 sensor, while the standard system did so at 2°C with the Aqara 6 sensor, both placed consistently in the upper left rear section. The IoT system improved efficiency, offering real-time monitoring via the ThinkSpeak platform and reducing sampling time to 20 seconds from the standard 30 minutes.
Co-Authors Abdulmajid, Muhammad W. Adi, Suko Prayitno Agung Setia Budi, Agung Setia Agus, Herdiansyah Albert Kriestian Novi Adhi Nugraha Aliansyah, Hadiat Ananda, Naufal Awwaludin, Patriana Nurmansyah Budiawan, Irvan Cahyo, Dito Dwi Dahnial Syauqy Deddy Kurniadi, Deddy Muhammad Agung Prabowo, Muhammad Agung Mukhlish, Faqihza Retno Ambarwati Ryan, Muhammad Saragih, Dearninta A. P. Soekirno, Santoso Syahrul Humaidi, Syahrul Tarigan, Kerista Wicaksana, Haryas Subyantara Wijayanti, Maria Tri Yulizar, David