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All Journal Techne : Jurnal Ilmiah Elektroteknika Journal of Applied Engineering and Technological Science (JAETS)
Widya Rahayu Dinata
Universitas Ahmad Dahlan
Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering

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Monitoring Cairan Infus Menggunakan Load Cell Berbasis Internet of Things (IoT) Phisca Aditya Rosyady; Aditya Santa Sanitya Sukarjiana; Nurina Umy Habibah; Nuni Ihsana; Ahmad Raditya Cahya Baswara; Widya Rahayu Dinata
Techné : Jurnal Ilmiah Elektroteknika Vol. 22 No. 1 (2023)
Publisher : Fakultas Teknik Elektronika dan Komputer Universitas Kristen Satya Wacana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31358/techne.v22i1.345

Abstract

Pemantauan infus pada pasien di fasilitas kesehatan oleh tenaga kesehatan merupakan hal yang sangat penting karena merupakan bagian dari salah satu terapi pengobatan pasien. Hal ini menjadi sangat penting karena keterlambatan penggantian infus maupun adanya perbedaan kecepatan aliran infus pada pasien dapat berakibat fatal bagi pasien yang dirawat. Oleh karena itu, diperlukan suatu sistem yang bertujuan untuk memudahkan perawat dalam memantau kondisi volume infus dan jumlah tetesan infus per menit dari pasien yang dirawat. Monitoring cairan infus ini menggunakan sensor Load Cell untuk mengukur volume infus dan sensor InfraRed untuk mendeteksi jumlah tetesan infus per menit aliran. Platform web monitoring sistem ini digunakan untuk menampilkan kondisi volume infus dan tetesan per menit secara real-time. Tingkat ketelitian pengukuran sensor Load Cell mencapai 99,8%, dan sensor InfraRed mampu mendeteksi jumlah tetesan infus per menit. Platform web memiliki jeda waktu 10-30 detik dalam menampilkan hasil pengukuran, tergantung kepada kecepatan jaringan internet yang digunakan.
Microcontroller-Based Intravenous Fluid Monitoring System Design Phisca Aditya Rosyady; Nurina Umy Habibah; Ahmad Raditya Cahya Baswara; Nuni Ihsana; Dedik Sulistiawan; Widya Rahayu Dinata
Journal of Applied Engineering and Technological Science (JAETS) Vol. 5 No. 2 (2024): Journal of Applied Engineering and Technological Science (JAETS)
Publisher : Yayasan Riset dan Pengembangan Intelektual (YRPI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37385/jaets.v5i2.3230

Abstract

Intravenous fluids are used to replace the body's fluid and electrolyte balance. This is a crucial need for a patient during treatment, so infusion replacement should not be delayed as it can be fatal to the patient. Medical personnel must always pay attention to the patient's infusion. This has always been a problem because the limited number of medical personnel and the large number of patients often make it difficult for medical personnel to carry out their duties. The development of technology increases human creativity and creates various tools to help humans be more effective, including in dealing with problems in the medical world. Based on this background, the author designed an infusion fluid monitoring system to facilitate nurses in hospitals that lack electrical support and internet networks. This research aims to make an intravenous fluid monitoring tool using a microcontroller effectively and realtime. The research method we use is research and development, while the data analysis method uses comparative quantitative analysis. This research consists of three main parts, namely system input, microcontroller as system processor, and system output as expected. This infusion fluid monitoring uses Load Cell to measure the volume of infusion fluid, RTC module to estimate the time of infusion fluid expiration, LCD as infusion fluid status information, and buzzer as an information alarm if the infusion fluid is detected to run out. The microcontroller used in this research is Arduino Uno. The results showed that infusion fluid has the same pressure as human body fluids (isotonic). Load Cell has a mass reading accuracy value of 99.88%, the accuracy of testing the conversion of intravenous fluid measurements into milliliters of 99.49%, and the number of infusion fluid droplets per minute under normal conditions is 20, with an estimated time out for 8 hours.
Co-Authors Aditya Santa Sanitya Sukarjiana Ahmad Raditya Cahya Baswara Dedik Sulistiawan Nuni Ihsana Nurina Umy Habibah Phisca Aditya Rosyady