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Abdul Haris Kuspranoto
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Medika Trada
Published by Polteknik Bina Trada Semarang
ISSN : -     EISSN : 2829453X     DOI : 10.59485/jtemp
Core Subject : Engineering,
Chemical Engineering, Chemistry & Bioengineering Control & Systems Engineering Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering
Merupakan Hasil-Hasil Penelitian,Riset, dan Inovasi Teknik Elektromedik alat Elektronika Alat medis Alat Kalibrasi Mekatronika Teknik Elektromedik Teknik Biomedik
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 62 Documents
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RANCANG BANGUN ALAT UKUR PULSE OXIMETRY, HEART RATE DAN TEMPERATUR MANUSIA BERBASIS ARDUINO MEGA Abdul Haris Kuspranoto; Rahmat Refaldo
MEDIKA TRADA : Jurnal Teknik Elektromedik Polbitrada Vol 4 No 1 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 1 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i1.26

Abstract

Perkembangan teknologi yang semakin cepat salah satunya dibidang Elektro Medik yaitu Pulse Oximetry yang merupakan alat untuk memonitoring keadaan saturasi oksigen dalam darah (SpO2). Pulse oximetry yang saat ini kebanyakan digunakan untuk melihat saja tetapi tidak dapat menyimpan data hasil pemeriksaan. Pulse oximetry yang dilengkapi dengan printer thermal dapat melihat hasil pendataan dengan akurat dan bisa disimpan untuk keperluan yang akan digunakan untuk meneliti keadaan pasien rawat jalan, alat ini menggunakan sensor MAX30100 sebagai pulse sensor, sensor XD-58C sebagai sensor heart rate, sensor MLX90106 sebagai sensor suhu tubuh, LCD TFT Nextion sebagai tampilan yang sudah dilengkapi dengan SD card dapat digunakan sebagai penyimpanan data, printer thermal sebagai media pencetakan hasil pemeriksaan dan mikrokontroler arduino mega 2560 sebagai mikrokontrolernya. Pengujian alat untuk sensor heart rate dan SpO2 menggunakan perbandingan pasien monitor merk BMV model BMO-200 dengan SN 151113073, dan pengujian alat untuk sensor suhu menggunakan Thermometer Gun. Didapatkan presentase kesalahan SpO2 terbesar 0,014% dan terkecil 0,003%. Untuk heart rate didapat presentase terbesar 0,036% dan terkecil 0,009%. Untuk suhu didapat presentase terbesar 0,011% dan terkecil sebesar 0,002%.
HUBUNGAN KUALITAS PELAYANAN KESEHATAN DENGAN KEPUASAN PASIEN RAWAT JALAN DI PUSKESMAS BUGANGAN PADA BULAN JUNI TAHUN 2022 Bajeng Nurul W; Diah Kari Artati; Renha Maria Pelera Ojan
MEDIKA TRADA : Jurnal Teknik Elektromedik Polbitrada Vol 4 No 1 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 1 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i1.28

Abstract

Kepuasan pasien adalah faktor utama pada saat meninjau ulang mutu pelayanan dengan menilai tanggapan pasien sesudah mendapatkan layanan. Puasnya pasien bergantung terhadap mutu pelayanan yang diberikan sesuai harapan pasien. Tujuan penelian ini untuk mengetahui bagaimana hubungan kualitas pelayanan kesehatan dengan kepuasan pasien rawat jalan di Puskesmas Bugangan pada Bulan Juni Tahun 2022. Jenis penelitian yang dipakai adalah penelitian kuantitatif menggunakan rancangan pendekatan Cross Sectional dengan populasi sebanyak 106 orang. Penelitian ini menggunakan teknik accidental sampling dengan total 84 sampel. Hasil uji chi square terhadap reliability diperoleh nilai p value 0.000 < 0.05. Terhadap responsibility diperoleh nilai p value 0.043 < 0.05. Terhadap assurance diperoleh nilai p value 0.052 > 0.05. Terhadap empathy diperoleh nilai p value 0.015 < 0.05. Terhadap tangibility diperoleh nilai p value 0.002 < 0.05. Sehingga dapat diambil kesimpulan bahwa ada hubungan dimensi reliability, responsibility, empathy dan tangibility dengan kepuasan pasien rawat jalan di Puskesmas Bugangan pada bulan Juni tahun 2022 dan tidak ada hubungan assurance dengan kepuasan pasien rawat jalan di Puskesmas Bugangan pada bulan Juni tahun 2022.
ANALISIS PENGGUNAAN APLIKASI SIMPUS DENGAN METODE TAM (TECHNOLOGY ACCEPTANCE MODEL ) DI PUSKESMAS LAMPER TENGAH Evie Triana T.P. Tukan; Lutfiyah Rizqolloh; Ratih Dwi Anggraynie
MEDIKA TRADA : Jurnal Teknik Elektromedik Polbitrada Vol 4 No 1 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 1 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i1.29

Abstract

Berkembangnya teknologi di Indonesia membuat pemerintah harus bergerak cepat untuk menerapkan suatu sistem informasi yang memiliki informasi yang cepat, tepat, akurat dan terbaru di bidang kesehatan. Dalam menerapkan suatu sistem informasi tersebut, pemerintah membuat sebuah sistem informasi yang bernama Sistem Informasi Manajemen Puskesmas (SIMPUS). SIMPUS memiliki tingkat kualitas yang efisien dan efektif dalam menjalankan pelayanan oleh Puskesmas. SIMPUS masih sering terjadi kesalahan yang diakibatkan jaringan sehingga aplikasi tidak dapat berjalan dengan baik dan benar. Desain penelitian dalam penelitian ini dengan pengumpulan data penelitian berupa kuisioner secara langsung kepada petugas kesehatan di Puskesmas Lamper Tengah yang menggunakan aplikasi SIMPUS dimana dalam kuisioner tersebut dilakukan uji validitas dan reabilitas. Penelitian kepada 36 sampel yang terdiri atas total sampling dari populasi di Puskesmas Lamper Tengah. Dengan deskripsi data disajikan dalam bentuk tabel melalui Microsoft Excel. TAM merupakan satu metode yang digunakan untuk mengetahui perilaku dari pengguna suatu teknologi informasi berdasarkan kepercayaan (beliefs), sikap (attitude), minat (intention) dan hubungan perilaku pengguna (user behavior relationship). Gambaran dari hasil kuisioner analisa kemudahan penggunaan (perceived ease of use) persentase terbesar 88,9% dengan pertanyaan “Responden sudah paham dengan tata cara menggunakan aplikasi SIMPUS”. Pada analisa kebermanfaatan (perceived usefullnes) persentase terbesar 86,1% pada pertanyaan “Aplikasi SIMPUS dapat melayani segala macam pelayanan administrasi pasien”. Pada analisa sikap pengguna (attitude towards using) persentase terbesar 69,4% dengan pertanyaan “Responden merasa menggunakan SIMPUS memberikan kenyamanan dalam mencatat data pasien”. Tanggapan responden menunjukan hasil dimana aplikasi SIMPUS dapat memberikan rasa mudah dan sangat bermanfaat dalam melakukan administrasi data pasien.
RANCANG BANGUN ELEKTROSTIMULATOR BERBASIS ARDUINO MEGA 2560 Muslihun, Muslihun; Ulin Nuha ABA, Muhammad; Ringaama Kromen3, Yohanes
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 4 No 2 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 2 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i2.35

Abstract

The use of medical equipment in the world of health is very much needed, one of which is an electrostimulator which can be used to help recovery in post-stroke patients. Electrostimulators can be made with several conditions, namely: controller, stimulator, and electrodes. Apart from that, there are 4 parameters needed for the electrostimulator, namely 1) Pulse Amplitude, 2) Pulse Width, 3) Pulse Shape, 4) Pulse Frequency. In this electrostimulator, it is highly recommended to use a surface electrode, apart from being a non-invasive electrode, this electrode also provides comfort and is easy to use. Judging from this, an innovation was carried out, namely making an electrostimulator with the choice of 2 modes, namely continuous and intermittent. The research procedure was carried out in several stages starting from preparing tools and materials, measurements and functional tests. The results of the research are a design for an electrostimulator therapy device with a power supply connected to a microcontroller and displayed on an LCD. The test results showed that the error percentage at the power supply input was 5.9%, the power supply output was 3%, and the buzzer output was 0%. The results of testing and analysis of the tool on the oscilloscope showed that the error percentage at frequency values of 2 Hz, 4 Hz, 5 Hz, 7 Hz and 8 Hz was 0.05%, 0%, 2%, 4% and 8% respectively. Based on the results of this research, it can be concluded that the tool is as desired and good to use.
PENGEMBANGAN TELEMONITORING PADA PULSE OXIMETER MENGGUNAKAN SPO2 NELLCOR BERBASIS INTERNET OF THINGS Kuspranoto, Abdul Haris; Nuha ABA, Muhammad Ulin
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 4 No 2 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 2 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i2.36

Abstract

Telemonitoring is a method of long-distance health services using information technology to provide data to health services. Telemonitoring can save time, costs and effectiveness of health services. The biggest challenge in using Telemonitoring is that the adoption rate is still low and there has not been much development in medical equipment. Pulse Oximeter Using Nellcor SpO2 Based on the Internet of Things, functions to measure oxygen saturation (SpO2) and measure heart rate remotely. Then the results can be monitored via an Android smartphone application by utilizing an internet connection. To make this happen, hardware and software planning was made. This module uses a Nellcor SpO2 sensor which will regulate SpO2 and Heart Rate values ​​in the range of 60-100%. This microcontroller module uses ESP32 which will act as the brain of the device controller and connect the device to an Android smartphone. The measurement results of this tool are tampilaned on a 3.5 inch Nextion LCD and the Inventor application on an Android smartphone. The difference between oxygen saturation and heart rate readings on the Prosim 8 device has the largest error percentage of 5.4% for heart rate and the smallest at 0% for SpO2. This application can record SPO2 data and falling heart rate on patients periodically, so that their condition and condition can be monitored. for diagnostic data on patients remotely.
PERANCANGAN SIMULASI ALAT PENGUKURAN INTENSITAS CAHAYA MENGGUNAKAN LUX METER BERBASIS LDR DAN ARDUINO DENGAN PENGATURAN LED NURANI, ANNISA EKMA; Kuspranoto, Abdul Haris
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 4 No 2 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 2 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i2.37

Abstract

Light is a visible electromagnetic wave whose main function is to illuminate the environment. Light has a significant impact on the human eye. A lux meter can be used to check the intensity of light. However, cheaper and more accurate light meters are not currently available. The design simulation of this tool is carried out to simulate accuracy and efficiency. The simulation involves the design of a more efficient light intensity measurement tool with a lux meter. The Luxmeter is equipped with a photoresistor sensor to read the intensity of light and an LED for the standard light intensity measurement system. The control system of this lux meter is operated by an Arduino Uno, and the readings of light intensity and distance can be displayed on a 20x4 LCD. The simulation of this tool is conducted to determine the accuracy of the light intensity and distance measurements.
PERANCANGAN SIMULASI TIMBANGAN DIGITAL MENGGUNAKAN SENSOR HX711 DENGAN TAMBAHAN BUZZER BERBASIS ESP32 Rachmawati, putri
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 4 No 2 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 2 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i2.38

Abstract

As technology advances, equipment that previously operated analogue is now being developed using digital techniques, and equipment that was previously manual is starting to become automatic. Digital scales are measuring instruments for measuring the mass of an object or substance with a digital display. This simulation was created with the aim of producing an ESP32 based digital weighing device, using HX711 as a load sensor and displaying load values using a 16x2 type LCD. This makes measurement results easier to read and more accurate than analog scales.
PERANCANGAN SIMULASI KALKULATOR INDEKS MASA TUBUH BERBASIS ARDUINO UNO DAN SIMULASI WOKWI Bagaskoro, Christopher; Kuspranoto, Abdul Haris
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 4 No 2 (2023): MEDIKA TRADA (JTEMP) Vol 4 No 2 (2023)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v4i2.39

Abstract

Ideal body weight is everyone's dream. Not only does having a body shape support your appearance, ideal body weight also indicates a healthy body condition. Maintaining body weight is one of the main keys to having a healthy and fit body. To find out whether our weight is ideal, we can see it from the Body Mass Index (BMI) measurement. BMI is measured by comparing height and weight. Basically, BMI is a benchmark that can be used as a way to find out ideal body weight. As time progresses, the use of existing technology is widely applied in the world of health. One of them is a BMI Calculator that uses a microcontroller such as Arduino UNO. BMI Calculator is a measurement tool commonly used to evaluate a person's Body Mass Index (BMI). This tool helps individuals and healthcare professionals to quickly determine whether a person is within a healthy weight range, underweight, or overweight.
PERANCANGAN SIMULASI COUNTDOWN TIMER PADA ALAT KESEHATAN BERBASIS ARDUINO UNO DAN SIMULASI WOKWI mahardhika, Pramudya; Haris Kuspranoto, Abdul
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 5 No 1 (2024): MEDIKA TRADA (JTEMP) Vol 5 No 1 (2024)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v5i1.41

Abstract

A countdown timer is a device or function in software that is designed to count down time from a starting point until it reaches zero. Its function is simple, namely to provide a visual or auditory indication of the remaining time remaining before a certain event or time limit is reached. The countdown timer implemented in this health device aims to provide clear time warnings to users regarding certain times related to health monitoring. For example, when using inhalers for asthma patients, a countdown timer can provide a countdown warning before the next inhalation, helping patients to follow the medication schedule more regularly. In this Countdown Timer series, we use an Arduino Uno manager to display it on the I2C 2x16 Liquid Crystal Display (LCD) and various other components. By implementing logic methods for countdown timers and alarms when the time reaches zero, it can provide an effective and efficient solution for monitoring critical time in various health applications, such as the use of inhaler medication for asthma patients. Further implementations may include integration with an RTC module for better timing accuracy and the use of additional sensors for more complex functions.
PERANCANGAN RANGKAIAN SEDERHANA INFANT WARMER BERBASIS ARDUINO UNO MENGGUNAKAN SIMULASI WOKWI Muwaffaq, M.Rifqi
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 5 No 1 (2024): MEDIKA TRADA (JTEMP) Vol 5 No 1 (2024)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v5i1.42

Abstract

Adjusting the temperature of a newborn baby to room temperature is a problem that often occurs, 34 to 37°C is the baby's temperature while in the womb. For this problem, a tool was created, namely an infant warmer. An infant warmer is a medical device specifically designed for comfort and warmth for newly born babies. And it is equipped with several features, such as a temperature sensor and automatic temperature control. This tool makes it easier for medical professionals to observe the baby's condition. And it can reduce the risk of hepotemia (low body temperature) in babies, which has a bad impact on the baby's health. In this infant warmer series, we use an Arduino Uno controller to display on an I2C Liquid Crystal Display (LCD) with 2x16 characters, using a relay as a replacement for the infant warmer heater, DHT22 is used for the room temperature sensor, and LED as a marker for maximum and minimum temperature limits. From the Wokwi simulation it can be simulated smoothly according to the design and expected events.

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