Rancang Bangun Alat Fetal Doppler Berbasis IoT

Authors

  • Romi Mulyadi Institut Kesehatan Dan Teknologi Al Insyirah Pekanbaru
  • Albirruni Siregar Institut Kesehatan Dan Teknologi Al Insyirah Pekanbaru
  • Muhammad Ikhwanul Ikhsan Institut Kesehatan Dan Teknologi Al Insyirah Pekanbaru
  • Abu Bakar Institut Kesehatan Dan Teknologi Al Insyirah Pekanbaru
  • Yona Ramadhika Institut Kesehatan Dan Teknologi Al Insyirah Pekanbaru

DOI:

https://doi.org/10.55606/juprit.v4i1.4584

Keywords:

Device Design, Fetal Doppler, IoT

Abstract

This research is motivated by the phenomenon of slowing population growth due to decreased birth rates caused by several factors, especially the risks caused by the distance that must be traveled between homes and hospitals, besides that there are various diseases that cause the fetus to not be delivered successfully. Thus, a tool is needed to facilitate and reduce the risks that have been mentioned. This design was made based on the plan in the process and workings of this IoT-based fetal doppler device and in knowing the normal or abnormal fetal heart rate. In this study the development method was used, which in this method is more focused, in developing goals, expanding, and digging deeper until the desired goals are obtained. The first step is to collect data, search and study data and theories related to the IoT-based fetal Doppler device design system. 2.5 MHz frequency transducer that sends and receives reflections generated from objects. This reflection turns into an electric current which is amplified and filtered by the transducer. Furthermore, the electricity is amplified by the amplifier until DJJ's voice is heard from the speakers. The transducer circuit processes the signal received at the amplifier until the data obtained is sent and processed by NodeMCU. After processing, NodeMCU gets fetal heart rate data on Display and Thingspeak. The results of this study were obtained from survey results, users with questionnaire respondents as many as 40 samples were calculated using a Likert scale. Users agree that the tool is able to provide ease of use with a score of simplicity of 4.94%, interactivity of 4.30% and usability of 3.39% on a scale of 5. And the design of the tool can reduce the risk of possible acquisition, as well as make it easier for some parties.

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References

Aji, Y.A. et al. (2022) „Sistem Pengukuran Detak Jantung Janin Melalui Elektrokardiogram Abdominal dan Android‟, Indonesian Journal of Applied Physics, 12(2), p. Available at: https://doi.org/10.13057/ijap.v12i2.65287. 279.

Aldy Razor. Kabel Jumper Arduino. 18 Januari 2023 https://www.aldyrazor.com/2020/04/kabel-jumper-arduino.html

Andrean W. Finaka. (2022) Berapa Jumlah Penduduk Indonesia Ya?, 20 Januari 2023 https://indonesiabaik.id/infografis/berapa-jumlah-penduduk-indonesia-ya#:~:text=Pada%20pertengahan%202020%2C%20jumlah%20penduduk,juta%20jiwa%20hingga%20pertengahan%202022

Artiyasa, M. et al. (2021) „Aplikasi Smart Home Node Mcu Iot Untuk Blynk‟, Jurnal Rekayasa Teknologi Nusa Putra, 7(1), pp. 1–7. Available at: https://doi.org/10.52005/rekayasa.v7i1.59.

Chabibah, N. and Laela, E.N. (2017) „Perbedaan Frekuensi Denyut Jantung Janin Berdasarkan Paritas Dan Usia Kehamilan‟, Siklus : Journal Research Midwifery Politeknik Tegal, 6(1), pp. 195–198. Available at: https://doi.org/10.30591/siklus.v6i1.471.

Darmanto, H., Fitra, F. and Mesra, T. (2015) „Perancangan Tongkat Narsis Multifungsi‟, 1, pp. 65–75.

Effendi, Y. (2018) „Rancangan Aplikasi Game Edukasi Berbasis Mobile Menggunakan App Inventor‟, Jurnal Intra-Tech, 2(1), pp. 39–48.

Ellyvon Pranita. (2022) Angka Kematian Ibu dan Bayi Masih Jadi Ancaman SDM di Indonesia, 20 Januari 2023 https://www.kompas.com/sains/read/2022/08/16/160500023/bkkbn--angka-kematian-ibu-dan-bayi-masih-jadi-ancaman-sdm-di-indonesia?page=all

Erlansyah, D., Universitas, D. and Darma, B. (no date) „ALAT BANTU KERJA ( JIG ) UNTUK MENGECEK‟, (12).

Fajrin, H.R., Maharani, S. and Fitriyah, A. (2021) „Simulator Fetal Doppler‟, Medika Teknika : Jurnal Teknik Elektromedik Indonesia, 2(2). Available at: https://doi.org/10.18196/mt.v2i2.11212.

Githa, D.P. and Swastawan, W.E. (2014) „Sistem Pengaman Parkir dengan Visualisasi Jarak Menggunakan Sensor PING dan LCD‟, Jurnal Nasional Pendidikan Teknik Informatika (JANAPATI), 3(1), p. 10. Available at: https://doi.org/10.23887/janapati.v3i1.9742.

Harianto, B., Hidayat, A. and Hulu, F.N. (2021) „ANALISIS PENGGUNAAN SENSOR MAX30100 PADA SISTEM PENDETEKSI DETAK JANTUNG BERBASIS IoT BLYNK‟, Seminar Nasional Teknologi, 2021(SemanTECH), pp. 238–245.

Hasan, M.A., Nasution, N. and Setiawan, D. (2017) „Game Bola Tangkis Berbasis Android Menggunakan App Inventor‟, Digital Zone: Jurnal Teknologi Informasi dan Komunikasi, 8(2), pp. 160–169. Available at: https://doi.org/10.31849/digitalzone.v8i2.641.

Hodijah, S., Ningsih, F.B. and Zulfa, M. (2018) „Perbedaan Posisi Berbaring dan Miring terhadap Pungtum Maksimum Denyut Jantung Janin (DJJ) Primigravida‟, Jurnal Ilmiah Kebidanan Indonesia, 8(02), pp. 94–100. Available at: https://doi.org/10.33221/jiki.v8i02.151.

Huda, C., Nugraha, P.C. and Pudji, A. (no date) „Perancangan Alat Bantu Kalibrasi Doppler Tanpa Display Pada LPFK Banjarbaru‟, 60282.

Jemmi Purwadianto. (2022) Bumil Hendak Periksa Kandungan dan Anaknya Tewas Tertabrak Truk di Gresik, 20 Januari https://www.detik.com/jatim/berita/d-6257058/bumil-hendak-periksa-kandungan-dan-anaknya-tewas-tertabrak-truk-di-gresik

Kusnaindi, M. (2019) „330210-Analisa-Fetal-Simulator-Yang-Dilengkapi-Fa149872‟, 10(3), pp. 176–182.

Mafazi, I.R., Levy, O. and Nur, S.T. (2018) „Miniaturisasi Mikrostrip Band Pass Filter Untuk Aplikasi Radar C-Band‟, e-Proceeding of Engineering, 5(3), pp. 5138–5144.

No, S.V.O.L.I. et al. (2014) „Monitoring Suhu Ruangan Server Dengan Fuzzy Logic Metode Sugeno Menggunakan Arduino dan SMS‟, Jurnal SWABUMI, I(1).

Nopa Ayu Solaikah (2015) „Fetal Doppler Simulator‟, Final Project Seminar, pp. 1 9.

Noviandy, R., Yacoub, R.R. and Elang Derdian Marindani (2019) „Sistem Pengendalian Kelembaban Pada Budidaya Tanaman Sawi‟, SISTEM PENGENDALIAN KELEMBABAN PADA BUDIDAYA TANAMAN SAWI Rian, pp. 1–10.

Pambudi, A.P., Roza, E. and Fayakun, K. (2020) „Penentuan Kerapatan Cahaya Pada Sistem VLC (Visible Light Communication)‟, Prosiding Seminar Nasional Teknoka, 5(2502), pp. 192–203. Available at: https://doi.org/10.22236/teknoka.v5i.386.

Puspasari, I. et al. (2020) „Model Identifkasi Sinyal Jantung Pertama (S1) dan Sinyal Jantung Kedua (S2) pada Janin‟, Jurnal Rekayasa Elektrika, 16(1). Available at: https://doi.org/10.17529/jre.v16i1.14991.

Rahayu Ningtias, D. et al. (2021) „Pengaruh Nilai Heart Rate terhadap Duty Cycle pada Pengujian Alat Fetal Simulator Berbasis Arduino‟, Jurnal Fisika, 11(1), pp. 27–36. Available at: https://journal.unnes.ac.id/nju/index.php/jf/index.

Rodiani (2019) „Prinsip Kerja Ultrasonografi Dopplerpada Kehamilan‟, JK Unila , 3(1), pp. 182–185.

Rony Setiawan. (2021). Flowchart Adalah: Fungsi, Jenis, Simbol, dan Contohnya. 18 Januari 2023, https://www.dicoding.com/blog/flowchart-adalah/

Salahuddin, N.S., Sari, S.P. and Soerowirdjo, B. (2014) „Disain dan Simulasi 0.35‟, Prosiding Seminar Ilmiah Nasional Komputer dan Sistem Intelijen (KOMMIT 2014), 8(Kommit), pp. 311–315.

Sarotama, A., Arisoni, A. and Astawa, I.M. (2018) „Penambahan Modul Usg Dan Modul Fetal Doppler Pada Telemedicine Workstation‟, Jurnal UMJ, 17, pp. 1–7.

Setiadi, D. and Abdul Muhaemin, M.N. (2018) „PENERAPAN INTERNET OF THINGS (IoT) PADA SISTEM MONITORING IRIGASI (SMART IRIGASI)‟, Infotronik : Jurnal Teknologi Informasi dan Elektronika, 3(2), p. 95. Available at: https://doi.org/10.32897/infotronik.2018.3.2.108.

Setyawati, R. et al. (2020) „An Improved Measurement Accuracy of Fetal Heart Rate using Digital Filter‟, Indonesian Journal of electronics, electromedical engineering, and medical informatics, 2(3), pp. 136–142. Available at: https://doi.org/10.35882/ijeeemi.v2i3.5.

Siswaya, S., Sunardi, S. and Yudhana, A. (2021) „Analisis Sistem Traffic Light Untuk Optimalisasi dan Antisipasi Kemacetan Lalu Lintas Berbasis Android‟, Respati, 16(3), p. 86. Available at: https://doi.org/10.35842/jtir.v16i3.423.

Susanto, I. (2018) „PENCIPTAAN BOX SPEAKER DENGAN MOTIF JEPARA Untuk Memenuhi Sebagai Persyaratan Program Studi Kriya Seni INSTITUT SENI INDONESIA‟.

Wibowo, E.M. et al. (2007) „Visualisasi isyarat detak jantung berbasis komputer‟.

Yanti, F., Hermansyah and Saputra, I. (2021) „Determinan Faktor Penyulit Persalinan Normal dengan Distress‟, Jurnal Aceh Medika, 5(1), pp. 91–101.

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Published

2025-01-06

How to Cite

Romi Mulyadi, Albirruni Siregar, Muhammad Ikhwanul Ikhsan, Abu Bakar, & Yona Ramadhika. (2025). Rancang Bangun Alat Fetal Doppler Berbasis IoT. Jurnal Penelitian Rumpun Ilmu Teknik, 4(1), 87–101. https://doi.org/10.55606/juprit.v4i1.4584

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Vol. 4 No. 1 (2025): Jurnal Penelitian Rumpun Ilmu Teknik

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