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All Journal Voteteknika (Vocational Teknik Elektronika dan Informatika) Jurnal Nasional Komputasi dan Teknologi Informasi Jurnal Intake : Jurnal Penelitian Ilmu Teknik dan Terapan J-Innovation

Rizki Faulianur

Politeknik Aceh

Author-ID : 3899427

Aerospace Engineering Automotive Engineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Mechanical Engineering Neuroscience Transportation

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PROTOTYPE BUKA TUTUP PALANG PINTU AIR BENDUNGAN OTOMATIS BERBASIS PLC KONFIGURASI HMI Rizki Faulianur; Rouhillah; Bariq Fajar Musaid
J-Innovation Vol. 10 No. 2 (2021): Jurnal J-Innovation
Publisher : Politeknik Aceh

In the dam there is a sluice gate that functions to hold water and regulate the volume of water in the dam. So far, the dam gate has been controlled manually by humans so that the water volume does not exceed the limit. The manual system requires humans to always monitor the water level of the dam. The purpose of this research is to make a prototype system for opening and closing the floodgates of the dam automatically to facilitate humans in the process of opening and closing the bars. This prototype uses an Omron PLC as the main controller, two level sensors to provide information on the water volume level, a red indicator light and a buzzer as an indicator that the water has crossed the limit, a green indicator light as an indicator of the water has dropped, and a DC motor as a dam door driver. This prototype is equipped with a Human Machine Interface (HMI) as a display on a laptop screen. The results of this prototype test, the dam door can be controlled according to water level conditions. The dam door will open automatically when the water level has reached the maximum limit, and the dam door will close again when the lower level sensor is detected. The process that occurs can be displayed on the laptop screen with an HMI simulation.

RANCANG BANGUN MESIN ABSENSI TANPA MENYENTUH DENGAN RFID Rizki Faulianur; Inzar Salfikar
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

In education, attendance is very important for lecturers and students. Currently, attendance used in universities still uses signatures or fingerprints so that there is direct contact with certain objects. But in the current pandemic. students and lecturers are required to keep their distance and avoid physical contact with shared objects because they can spread the virus quickly. This Attendance machine is offered to limit direct contact and inhibit the spread of the coronavirus by using Radio Frequency Identification (RFID) as a method of controlling Raspberry pi. RFID will generate a unique code that is used as user data which will then be stored with Raspberry pi and then stored in the database. RFID can read the reader within a range of 3 cm. From the test results, this machine is able to recognize 3 users who detect and process data quickly

Alat Monitoring Kualitas Air Minum Menggunakan Sensor TDS Berbasis Internet of Things Rouhillah; Rizki Faulianur; Fira Fazila
J-Innovation Vol. 12 No. 2 (2023): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v12i2.212

Water is a natural resource that is very important for life, especially for humans. Human needs for clean water always increase from years to years. Mineral water from the depot makes it easier for consumers to choose the quality of mineral water. This final project aims to make a drinking water quality monitoring tool with a Total Dissolved Solid (TDS) sensor that can read dissolved substances in water. The microcontroller used to store sensor data is a NodeMCU ESP8266, the data is sent to Firebase then the data in Firebase will be forwarded to Android with Internet of Thing (IoT) technology. The result of the average error percentage for the comparison of the TDS sensor with the TDS meter is 16.82%. All test results from five samples of TDS sensor data and TDS meter can be concluded that the quality of drinking water is very good, because the sensor readings are below 300 PPM.

Simulasi Konveyor Penghitung Barang Berbasis PLC-HMI Sebagai Media Pembelajaran Rizki Faulianur; Mhd Ridho Pratama; Mahmud
J-Innovation Vol. 12 No. 2 (2023): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v12i2.219

As time goes by, learning media in educational institutions need to be innovated according to industry demand through curriculum development mechanisms. One of the learning media that will be developed is the Programmable Logic Controller (PLC) and Human Machine Interface (HMI) which will interact in the PLC course. HMI is a device that connects humans with working machines displaying visualization of input output equipment connected to a PLC. This research aims to create a PLC HMI-based goods counter conveyor simulation as a learning medium in the Aceh Polytechnic Mechatronics Study Program. The results obtained were that learning media was successfully created with PLC and HMI indications that could communicate to simulate goods counting conveyors. In this module there is an average delay of 2 seconds which is caused by the unresponsive response of the HMI touchscreen. However, overall this module is quite reliable and has been applied to increase competency in PLC courses.

Loker Penyimpanan Kunci Laboratorium Otomatis dengan RFID Berbasis Raspberry Pi Rizki Faulianur; Inzar Salfikar; Ahyar Mustafa
J-Innovation Vol. 14 No. 1 (2025): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v14i1.327

In Vocational colleges, the high activity of students in the laboratory for practical activities, research, and others makes the use of the laboratory more optimal so that it is difficult to monitor its use. This results in a lack of information on the track record of laboratory use. So if the key and laboratory equipment are lost, it is very difficult to identify. The laboratory key security system based on Radio Frequency Identification (RFID) and Raspberry Pi is one solution that can be used for a security system compared to the conventional physical locker key system. This system uses Raspberry Pi as the main controller to control the lock mechanism on the locker. This system aims to provide convenience and security in the use of lockers using miniature computing technology. This system consists of Raspberry Pi as a control center, solenoid lock door to move the lock mechanism, LCD screen to display information to users, and RFID as a user authentication method before opening the locker. This tool is also able to inform the day and time of taking the locker key recorded on the website. By using this system, users can easily access the locker and can more easily find out the track record of taking the laboratory key. The results of the study, from 7 users registered in the system, all of them successfully opened the locker with a success rate of 100%. The response time to open and close the locker door is a maximum of 60 seconds. Users who access the locker can be recorded on the website regarding the date and time of locker access.

Co-Authors Ahyar Mustafa Bariq Fajar Musaid Feri susilawati Fira Fazila M Agil Haikal M Nur Hasan Mahmud Mhd Ridho Pratama Rachmad Ikhsan Rouhillah Rouhillah Ryan Mulyawan Salfikar, Inzar Zoel Fachri

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