Alat Ukur Berat Badan dengan Tinggi Badan yang Disertai dengan Pengukuran IMT (Indeks Massa Tubuh) Sebagai Pendeteksi Obesitas pada Remaja

Authors

  • Haidar Ahmad Musyaffa Institut Teknologi Sains dan Kesehatan PKU Muhammadiyah Surakarta
  • Anis Prabowo Institut Teknologi Sains dan Kesehatan PKU Muhammadiyah Surakarta
  • Ipin Prasojo Institut Teknologi Sains dan Kesehatan PKU Muhammadiyah Surakarta
  • Retno Dewi Noviyanti Institut Teknologi Sains dan Kesehatan PKU Muhammadiyah Surakarta

DOI:

https://doi.org/10.59841/jumkes.v2i2.2668

Keywords:

Obesity in Adolescents, RF Module 433 Mhz, Atmega328P.

Abstract

The obesity rate among adolescents in Indonesia is increasingly worrying. Obesity in adolescents is affected by a variety of factors, including lifestyle changes that tend to lead to an unhealthy diet and lack of physical activity. To overcome this problem, early prevention efforts are very important, one of which is by measuring Body Mass Index (BMI) as an early indicator of obesity. This research uses a Research and Development (RnD) approach, which aims to develop or improve existing tools to obtain new data and insights into the use of these tools in various contexts. This tool is a development of the previous tool with the HC SR04 sensor to measure height, the Load Cell sensor to measure weight, and the Atmega328p microcontroller to calculate BMI. The main innovation of the tool is the use of a 433 MHz Radio Frequency module that allows wireless communication between height and weight data, increasing the mobility of the tool as it does not require cables and poles as a support. With the result of an error value in the IMT measurement of 1,28%. With an error value of 1.28% in BMI measurements and 93.40% in BMI measurement validity. So from the results of the above percentage, it can be stated that this tool is suitable for use.

References

Aditiananingsih, & Isnaini, N. (2020). Pengaruh edukasi penanganan awal hipotermia dengan booklet terhadap tingkat pengetahuan pada pendaki Gunung Prau. Jurnal Keperawatan Muhammadiyah, 1, 1–5.

Andrianto, D., & Setiawan, L. W. (2022). Rancang bangun alat blanket warmer berbasis Arduino. Medika Trada: Jurnal Teknik Elektromedik Polbitrada, 3(2).

Bangun Sistem Monitoring dan Kendali Otomatis Kandang Ayam Modern, R., Baehaqi, M., Vaktiyan, Y. D., Siswanto, A., & Studi Teknik Elektro, P. (n.d.). Design monitoring and automatic control system for modern chicken cage. MESTRO Jurnal Ilmiah, 4(2).

Deswar, F. A., & Pradana, R. (2021). Monitoring suhu pada ruang server menggunakan Wemos D1 R1 berbasis Internet of Things (IoT). Jurnal Ilmiah Technologia, 12, 26–28.

Dirja, I., & Jihan, M. A. (2020). Rancang bangun pemanas air (water heater) dengan menggunakan baterai berbasis Arduino Pro Mini. Infomatek, 6, 91–96.

Endang Winarni. (2020). Efektivitas penggunaan blanket warmer terhadap suhu pada pasien shivering post spinal anestesi replacement ekstremitas bawah [Naskah publikasi].

Firmansyah, D., Nursanti, I., Irawati, D., & Jumaiayah, W. (2019). Efek pemberian blanket warmer terhadap termoregulasi pasien perioperatif transurethral resection of the prostate (TURP). Jurnal Perawat Indonesia, 6(2).

Gumilar, G. R. (2024). Rancang bangun alat pembersih lantai otomatis menggunakan Arduino Uno. Jurnal Teknik Informatika, 8, 41–50.

Halim, A. R., Saiful, M., & Kertawijaya, L. (2022). Rancang bangun alat pengukur suhu tubuh pintar berbasis Internet of Things. Infotek: Jurnal Informatika dan Teknologi, 5(1), 117–127. https://doi.org/10.29408/jit.v5i1.4615

Hidayat, R., & Rusimamto, P. W. (n.d.). Sistem pengendalian temperatur pada inkubator penetas telur otomatis berbasis fuzzy logic control. https://www.micro4you.com/files/sensor/DHT11.pdf

Lauronen, S. L., Kalliovalkama, J., Aho, A., Mäkinen, M. T., Huhtala, H., Yli-Hankala, A. M., & Kalliomäki, M. L. (2023). Self-warming blanket versus forced-air warming blanket during total knee arthroplasty under spinal anaesthesia: A randomised non-inferiority trial. Acta Anaesthesiologica Scandinavica, 67(8), 1102–1109. https://doi.org/10.1111/aas.14283

Maharani, S. H., & Kholis, N. (2020). Studi literatur: Pengaruh penggunaan sensor gas terhadap persentase nilai error karbon monoksida (CO) dan hidrokarbon (HC) pada prototipe vehicle gas detector (VGD). Jurnal Teknik Elektro, 10, 569–578.

Nurwidyaningrum, D., & Saputra, J. (2020). Tenda darurat dan kipas angin blower untuk menunjang penanggulangan COVID-19 di RSUD Kota Depok Jawa Barat. JMM (Jurnal Masyarakat Mandiri), 4, 1117–1125.

Pasaribu, F. I., & Reza, M. (2021). Rancang bangun charging station berbasis Arduino menggunakan solar cell 50 WP. RELE (Rekayasa Elektrikal dan Energi): Jurnal Teknik Elektro, 3(2), 46–55.

Prasetyo, E., & S. (2019). Prototype robot line follower Arduino Uno menggunakan 4 sensor TCRT5000. Jurnal Informatika, Manajemen dan Komputer, 11(2).

Prasetyo, P. E., Nani, D., & Kamaluddin, R. (2024). Effect of blanket warmer use on shivering patients post regional anesthesia: A systematic review. Eduvest: Journal of Universal Studies, 4, 423–426.

Pratama, Y. A. (2022). Blanket warmer dilengkapi monitoring suhu tubuh. Jurnal UWHS, 4, 4–8.

Putra, I. U., Saefulloh, M., Bakri, M., & Darwis, D. (2021). Pengukur tinggi badan digital ultrasonik berbasis Arduino dengan LCD dan output suara. Jurnal Teknik dan Sistem Komputer, 6, 3–6.

Rachmat Aulia, R. A. F., & I. L. (2021). Pengendalian suhu ruangan menggunakan fan dan DHT11 berbasis Arduino. CESS (Journal of Computer Engineering System and Science), 6, 30–38.

Ramadhan, R. G., & Faiz, W. S. K. D. (2023). Efektivitas penggunaan terapi cairan infus hangat dan blanket warmer pada pasien hipotermia post anestesi regional di IBS RSUD Kota Tangerang. Jurnal Inovasi Penelitian, 4, 463–470.

Saputro, M. A., Widasari, E. R., & Fitriyah, H. (2020). Implementasi sistem monitoring detak jantung dan suhu tubuh manusia secara wireless. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, 4, 148–156.

Setiawan, F. B., Wibowo, Y. Y. C., Pratomo, L. H., & Riyadi, S. (2022). Perancangan automated guided vehicle menggunakan penggerak motor DC dan motor servo berbasis Raspberry Pi 4. Jurnal Rekayasa Elektrika, 18(2). https://doi.org/10.17529/jre.v18i2.25863

Thoha, A. S., & Dwirastiaji, B. B. (2021). Monitoring dan kontrol suhu aquascape menggunakan Arduino dengan sensor suhu DS18B20. Jurnal Ilmiah Mahasiswa Kendali dan Listrik, 3(2), 75–83.

Usep Hidayatulloh. (2023). Efektivitas pemakaian blanket warmer terhadap pasien menggigil pasca anestesi regional di ruang pemulihan di RSUD Kota Tangerang. Jurnal Inovasi Penelitian, 4, 471–477.

Zakaria, P., Pujiastuti, R. E., & Mardiyono. (2024). Interventions of warm blanket compresses and aromatherapy on blood pressure of post-surgery patients. Malahayati International Journal of Nursing and Health Science, 3, 104–111.

Zhang, J., Deng, L., Wang, X., Song, F., Hou, H., & Qiu, Y. (2022). Effect of forced-air warming blanket on perioperative hypothermia in elderly patients undergoing laparoscopic radical resection of colorectal cancer. Therapeutic Hypothermia and Temperature Management, 12(2), 68–73. https://doi.org/10.1089/ther.2021.0010

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Published

2024-04-30

How to Cite

Haidar Ahmad Musyaffa, Anis Prabowo, Ipin Prasojo, & Retno Dewi Noviyanti. (2024). Alat Ukur Berat Badan dengan Tinggi Badan yang Disertai dengan Pengukuran IMT (Indeks Massa Tubuh) Sebagai Pendeteksi Obesitas pada Remaja. Jurnal Mahasiswa Ilmu Kesehatan, 2(2), 86–96. https://doi.org/10.59841/jumkes.v2i2.2668

Issue

Vol. 2 No. 2 (2024): April: Jurnal Mahasiswa Ilmu Kesehatan

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