Peranan Kalibrasi Pada Alat Ukur : Literature Review
Abstract
Abstract—Calibration has now become an important role in determining the operational suitability of measuring instruments in various fields. Currently, equipment, especially measuring instruments for public and public facilities, has not yet been properly calibrated according to existing regulations. Calibration is carried out to ensure data validity Which produced frommeasuring instrument. Calibration acts as a process to ensure the accuracy, precision, and reliability of measuring instruments. This article investigates several literatures related to the role of calibration in improving the quality of measuring instruments based on calibration methods that can be used according to the urgency. The results of assessing the operational feasibility of equipment or measuring instruments are determined through a calibration process. Apart from that, calibration can be carried out using several methods such us the single point calibration method, multi point calibration method, and reference instrument calibration method. Reviews based on useful calibration literature in the fields of health, environment, technology, maritime and aviation. Implementing appropriate and documented calibration is important in supporting the validity of medical device data, scientific research, traceability of sensors from a new system, guaranteeing data reliability, and providing reliable services, as well ashas a positive impact on various aspects of life and technological development.
Keywords—Calibration; Benefits of calibration: Calibration method; Traceability ; Measuring instrument
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References
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[9] Toruan, K.L., Barus, E.I.C. and Sinambela, M., (2023) “Rancang Bangun Kalibrator Portable Penakar Hujan Tipping Bucket”, METHODIKA: Jurnal Teknik Informatika dan Sistem Informasi, 9(2), pp.35-42.
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[13] Handayani, I.N., (2020) “Pemeliharaan Preventif Alat Elektromedik di Puskesmas Kecamatan Kebayoran Lama”, International Journal of Community Service Learning, 4(1), pp.83-89
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[15] Pertiwi, Y., Hadziqoh, N. and Mustofa, M.A., Analisis Hasil Kalibrasi Alat Phototherapy Merk Gea Medical Type Xhz-90. Komunikasi Fisika Indonesia, 19(2), pp.83-90.
[16] Yuliani, Y., Suhendra, T. and Kusuma, H.A., 2022. Analisis Perbandingan Akurasi Pada Sensor Tekanan BMP280 dan BME280. Student Online Journal (SOJ) UMRAH-Teknik, 3(1), pp.31-37.
[17] Hariyono, M.A., Erlita, U.A., Wibowo, B.S., Persadha, G., Japeri, J., Yakub, S., Fatimah, F., Martha, D. and Hadi, M.A., 2023. Pelayanan Kesehatan Melalui Standarisasi Peralatan Kesehatan Di Puskesmas Barabai Kabupaten Hulu Sungai Tengah. Lumbung Inovasi: Jurnal Pengabdian kepada Masyarakat, 8(2), pp.143-153.
[18] Kardianto, K., Kristanti, K.H., Tiswati, K.A. and Dwihapsari, Y., 2019. Analisis Nilai Ketidakpastian dan Faktor Kalibrasi pada Alat Ukur Radiasi di Balai Pengamanan Fasilitas Kesehatan Surabaya. Jurnal Fisika Dan Aplikasinya, 15(2), pp.56-61.
[19] Asrori, M., Rezika, W.Y., Salim, A.T.A., Indarto, B. and Nudiansyah, R.T., 2022. Kalibrasi Alat Ukur Temperatur dan Kelembapan Kereta Rel Diesel Elektrik. Jurnal Teknik Terapan, 1(2), pp.36-41.
[20] Fakhrizal, A.B., Romdania, Y., Wahono, E.P. and Herison, A., 2022. Kalibrasi Alat Ukur Sedimen Tersuspensi Berbasis Turbidity Sensor. Jurnal Rekayasa Sipil dan Desain, 10(4), pp.591-604.
[21] Amiroh, K., Permata, O.A. and Rahmanti, F.Z., 2019. Analisis Kualitas Udara untuk Monitoring Kesehatan Lingkungan Rumah Sakit. Jurnal Nasional Informatika dan Teknologi Jaringan, 4(1), pp.29-36.
[22] Lee, H., Kang, J., Kim, S., Im, Y., Yoo, S. and Lee, D., 2020. Long-term evaluation and calibration of low-cost particulate matter (PM) sensor. Sensors, 20(13), p.3617.
[23] Li, Z., Stoffelen, A., Verhoef, A., Wang, Z., Shang, J. and Yin, H., 2023. Higher-order calibration on WindRAD (Wind Radar) scatterometer winds. Atmospheric Measurement Techniques, 16(20), pp.4769-4783.
[24] Masinde, M. and Bagula, A., 2015. A calibration report for wireless sensor-based weatherboards. Journal of Sensor and Actuator Networks, 4(1), pp.30-49.
[25] Müller, M., Graf, P., Meyer, J., Pentina, A., Brunner, D., Perez-Cruz, F., Hüglin, C. and Emmenegger, L., 2020. Integration and calibration of non-dispersive infrared (NDIR) CO 2 low-cost sensors and their operation in a sensor network covering Switzerland. Atmospheric Measurement Techniques, 13(7), pp.3815-3834.
[26] Muñoz, C., Huircan, J., Jaramillo, F. and Boso, Á., 2023. Calibration of Sensor Network for Outdoor Measurement of PM2. 5 on High Wood-Heating Smoke in Temuco City. Processes, 11(8), p.2338.
[27] Mashuri, A.A. and Zulfa, N., 2022. Sistem Monitoring dan Pendukung Keputusan Kualitas Udara di Kota Semarang Menggunakan IoT. Jurnal Informatika Upgris, 8(1).
[28] Herlambang, B., Larasati, D. and Prihartono, A., 2019. Peningkatan Kemampuan Sistem Kalibrasi Termometer Gelas. Bunga Rampai Iptek Penerbangan dan Antariksa: Progres Litbangyasa Roket, Satelit, dan Penerbangan 2018, pp.34-43.
[29] Yamamoto, K., Togami, T., Yamaguchi, N. and Ninomiya, S., 2017. Machine learning-based calibration of low-cost air temperature sensors using environmental data. Sensors, 17(6), p.1290.
[30] Ega, A.V. and Samodro, R.R.A., 2019. Evaluation on the consistency of calibration results between reference standards of pneumatic pressure balance based on non-full range calibration. Jurnal Standardisasi, 21(3), pp.203-210.
[31] Wijaya, N.H., Safitri, M. and Kartika, W., 2020. Maintanance, Kalibrasi Dan Laporan Online Untuk Mewujudkan Pelayanan Prima Di Puskesmas. Jurnal Abdidas, 1(6), pp.705-712.
[32] Concas, F., Mineraud, J., Lagerspetz, E., Varjonen, S., Liu, X., Puolamäki, K., Nurmi, P. and Tarkoma, S., 2021. Low-cost outdoor air quality monitoring and sensor calibration: A survey and critical analysis. ACM Transactions on Sensor Networks (TOSN), 17(2), pp.1-44.
[33] Liu, C., Zhao, C., Wang, Y. and Wang, H., 2023. Machine-Learning-Based Calibration of Temperature Sensors. Sensors, 23(17), p.7347.
[34] Malings, C., Tanzer, R., Hauryliuk, A., Kumar, S.P., Zimmerman, N., Kara, L.B., Presto, A.A. and Subramanian, R., 2019. Development of a general calibration model and long-term performance evaluation of low-cost sensors for air pollutant gas monitoring. Atmospheric Measurement Techniques, 12(2), pp.903-920.
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[36] Nagahage, E.A.A.D., Nagahage, I.S.P. and Fujino, T., 2019. Calibration and validation of a low-cost capacitive moisture sensor to integrate the automated soil moisture monitoring system. Agriculture, 9(7), p.141.
[37] Spinelle, L., Gerboles, M., Villani, M.G., Aleixandre, M. and Bonavitacola, F., 2015. Field calibration of a cluster of low-cost available sensors for air quality monitoring. Part A: Ozone and nitrogen dioxide. Sensors and Actuators B: Chemical, 215, pp.249-257.
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Published
2024-08-31
How to Cite
PRAMUDYA, Lintang; KUMARA, I Nyoman Satya; DIVAYANA, Yoga.
Peranan Kalibrasi Pada Alat Ukur : Literature Review.
Majalah Ilmiah Teknologi Elektro, [S.l.], v. 23, n. 1, p. 37-48, aug. 2024.
ISSN 2503-2372.
Available at: <https://ojs.unud.ac.id/index.php/jte/article/view/110974>. Date accessed: 05 sep. 2024.
Section
Articles
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
This work is licensed under a Creative Commons Attribution 4.0 International License
