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All Journal PROtek : Jurnal Ilmiah Teknik Elektro Jurnal Dinamika Pengabdian (JDP) JOURNAL OF INFORMATICS AND TELECOMMUNICATION ENGINEERING Jurnal SOLMA Informatika Jambura Journal of Electrical and Electronics Engineering Teknik: Jurnal Ilmu Teknik dan Informatika JURNAL REKAYASA INFORMASI SWADHARMA (JRIS) Jurnal Manajemen dan Teknologi Informasi PROSISKO : Jurnal Pengembangan Riset dan observasi Rekayasa Sistem Komputer Sci-Tech Journal Jurnal Mosfet Jurnal Sintaks Logika (JSilog) Jurnal Sains dan Ilmu Terapan Madani: Multidisciplinary Scientific Journal COREAI: Jurnal Kecerdasan Buatan, Komputasi dan Teknologi Informasi Surya Informatika Jurnal Manajemen Informatika, Sistem Informasi dan Teknologi Komputer (JUMISTIK) Poltekita: Jurnal Pengabdian Masyarakat Arunika: Jurnal Pengabdian Masyarakat
Untung Suwardoyo
Teknik Informatika, Universitas Muhammadiyah Parepare
Religion Agriculture, Biological Sciences & Forestry Arts Humanities Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Dentistry Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Mechanical Engineering Medicine & Pharmacology Nursing Physics Public Health Social Sciences Transportation Other

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Journal : Jurnal Mosfet

 1 
Monitoring Volume Cairan Infus Pasien Rawat Inap Menggunakan Teknologi IoT Muhammad Basri; Firdamayanti Firdamayanti; Untung Suwardoyo; Wahyuddin Wahyuddin
Jurnal Mosfet Vol 3 No 1 (2023): 2023
Publisher : Fakultas Teknik Universitas Muhammadiyah Parepare (FT-UMPAR)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31850/jmosfet.v3i1.2108

Abstract

Masalah yang sering terjadi ketika pemberian pengobatan melalui infus adalah kelalaian dalam penggantian botol infus yang telah habis isinya, menyebabkan timbulnya komplikasi pada pasien misalnya pembuluh darah yang termasuki gelembung udara sehingga dapat menyebabkan aliran darah terhambat, gelembung udara yang masuk dapat berbahaya bagi tubuh sehingga dapat menyebabkan seseorang meninggal. Tujuan penelitian ini adalah untuk membuat sistem yang diharapkan dapat membantu tenaga medis dalam memantau kondisi volume infus tanpa harus ke ruang pasien. Metode yang digunakan yaitu dengan memanfaatkan teknologi IoT berupa membuat sebuah alat menggunakan sensor loadcell dan NodeMCU yang akan mengirimkan data ke database MySQL dan selanjutnya ditampilkan dengan aplikasi berbasis HTML dan Javascript. Hasil penelitian ini adalah sebuah sistem informasi dengan 2 buah gambar ilustrasi status volume infus dan nilai volumenya dalam satuan milliliter (ml), nilai ini diambil dari nilai database hasil kiriman NodeMCU. Gambar akan berubah sesuai dengan nilai yang ada pada database, selain menampilkan nilai volume dan gambar ilustrasi, aplikasi juga akan mengeluarkan bunyi peringatan melalui speaker jika pembacaan nilai volume pada database menunjukkan salah satu atau kedua infus memiliki volume <= 100 ml. Berdasarkan hasil pengujian pengukuran timbangan dan alat hasil penelitian adalah relatif sama. Hasil pengujian tetesan dengan setting ± 20 tetes permenit (TPM) didapatkan pengurangan volume rata-rata infus per 30 menit adalah 26,5 ml, dalam 1 jam infus dapat berkurang 53 ml, untuk menghabiskan cairan infus volume 553 ml diperlukan waktu ± 10 jam.
Sistem Penghitung Berat Gabah Berbasis Desktop Herman, Herwin; Basri, Muhammad; Suwardoyo, Untung
Jurnal Mosfet Vol. 4 No. 1 (2024): 2024
Publisher : Fakultas Teknik Universitas Muhammadiyah Parepare (FT-UMPAR)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31850/jmosfet.v4i1.3108

Abstract

One of the interesting things to examine is the way farmers measure their grain harvest using scales. The reality in the field is that weighing is sometimes not accurate regarding the weight of certain types of grain. Actors in the field sometimes cheat by tampering with analog scales. Based on this problem, researchers conducted research to create a digital grain weight calculation application. The research was carried out by creating a digital weighing application that uses Arduino Uno as a microcontroller, load cell and HX711 module. The system is equipped with a desktop-based application to manage grain sales calculations based on weight. Testing is carried out by comparing measurement results between digital scales and the designed system. The test results show that the designed system can carry out measurements with an accuracy level of up to 90%
Implementasi Smart Farming pada Budidaya Jamur Tiram Y, Alauddin; Suwardoyo, Untung; Jasmawati, Jasmawati; Wirawan, Raden
Jurnal Mosfet Vol. 5 No. 1 (2025): 2025
Publisher : Fakultas Teknik Universitas Muhammadiyah Parepare (FT-UMPAR)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31850/jmosfet.v5i1.3166

Abstract

The background of this research is the oyster mushroom cultivation process where people often have difficulty regulating temperature and humidity because these values change frequently, so people often have to monitor where the mushrooms grow to check the temperature and humidity. The purpose of this research is to make it easier for oyster mushroom farmers to monitor and control normalizing temperature and humidity by means of automatic watering and wider ventilation openings, this is done via the website by sending data from NodeMCU to a realtime database. The results of the research conducted show that the steam pump will automatically turn on if the DHT11 sensor detects a temperature of 28ºC or 60% humidity. The pump will automatically stop watering when the normal temperature is 22ºC-28ºC or humidity is 60%-70%. Vents will automatically open when the temperature is 22ºC or humidity is 70%. The vents will remain closed when the temperature is 22ºC or 60% humidity. Apart from watering, this system can also monitor the temperature and humidity status of the kumbung in real time through the website by sending data via firebase.
Co-Authors Abd. Jabbar, A. Ade Hastuty Ahmad Salim K ahmad selao Akhmar, St. Khaeriani Almauna, Elawati Andi Wafiah Anggita Arfina Arfah Anshariah Ashadi Amir Asli, Rahmat Fardi Ayu Dwi Putri Rusman Bahruddin Bahruddin Basri, Muh. Dwiyana, Asnurbaety Dwiyanti, Dya fahriyanto, fery Fatmawati, Fatmawati Fatri, Andi Firdamayanti Firdamayanti Fitrawati Harianto Joni Harsani, Harsani Hasyim, Ade Hastuty Helmiana, Helmiana Herman, Herwin Iradhatullah Rahim Irmayani Pawelloi Irmayani, Andi Irninthya Nanda Pratami Irwan Iskandar, Imran Iswan Iswan jabbar, A.abd. Jabir, Haryanto Jasmawati, Jasmawati Leonard, Benny Marlina Marlina Marlina Masnur Masnur Masnur Mayasari Yamin, Mayasari Mughaffir Yunus Muh Rusli Muh Sabran M, Andi Muhammad Basri Muhammad Basri Muhammad Basri Mutianniza, SY. Zakia Nasriani Nasriani Nisma, Nismawati Natsir Nur, Muhammad Purqan Nurbaya Nurbaya, Nurbaya Nurfajry, Muh. Awal Nurul Fadillah Pawelloi, A. Irmayani Putra, Rezki Dwi Raden Wirawan Rafikil, Dias Rahmawati, Rahmawati Rayhan Fauzan Rifaldi Rifaldi Rimalia, Watty Riswan Rosima, Irma Sahidin, Sudirman Salim K, Ahmad Sanjani MK, Raf Sarina Sarina sarti, kiki yustika Selao, Ahmad Sri Nur Qadri Suherman, Suherman Suherman, Suherman Sukmawati Sukmawati Surya Ayu Nengsih, Febby Syamsiar Zamzam Syawal, Fajar Taufik Taufik Taufiq, Muh. Wahyuddin Wahyuddin Wahyuddin Wahyuddin Y, Alauddin Yasri Tarawiru