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All Journal Elektron Jurnal Ilmiah SENTIA 2015 Journal of Renewable Energy and Mechanics Mitra Mahajana: Jurnal Pengabdian Masyarakat J-Innovation Bulletin of Engineering Science, Technology and Industry
Rouhillah Rouhillah
Politeknik Aceh
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Journal : j-innovation

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Implementasi Sensor Pir dan Kamera untuk Keamanan Ruangan Berbasis Internet of Things Rouhillah; Inzar Salfikar; Fajri Aqsalmi
J-Innovation Vol. 12 No. 1 (2023): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v12i1.177

Abstract

Room security is a very important thing to prioritize. One of the solutions to prevent crime levels needs to be equipped with a security device or a device capable of monitoring a room with the ability to detect the presence of an unwanted person. Therefore, this study designed a tool to monitor rooms based on the Internet of Thing (IoT) with surveillance cameras, which is one way to monitor the situation in a room. This system combines the use of the pir sensor, the raspberry pi camera module, and the raspberry pi, in order to be able to find out the condition of the room in the form of photos sent and also use bot features on internet applications, namely telegram messenger. This system is more efficient because it uses storage from telegram, and also the system will send notifications via telegram bots. So that the user can take action as soon as possible if things happen that are not desired. When the pir sensor detects movement in the room, the camera takes a photo and then sends it to the user's telegram bot account and the buzzer sounds as an early prevention of crime.
SISTEM PENGONTROLAN DAN MONITORING LEVEL TEGANGAN PLC SECARA WIRELESS BERBASIS EMBEDDED LINUX. Muhammad Agil Haikal; Rouhillah; Effendi
J-Innovation Vol. 4 No. 1 (2015): J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (206.353 KB) | DOI: 10.55600/jipa.v4i1.18

Abstract

Programmable Logic Controller (PLC) is not only serves as a smart relay or just on and off the system but also provided an analog input so that the PLC can changes in input voltage levels. PLC also has a serial communication between PLC coupling with other devices. Level analog voltage input has a voltage rating of 0-10 Volt will be converted by the ADC (analog digital converter) to the PLC, and the subsequent response of the ADC program created in the PLC will affect the results output. This reseach was made for monitoring levels of 0-10 Volt input voltage that come from the PLC. ADC control is made will be downloaded to the PLC. PLC will be communicated with the Raspberry Pi which is installed embedded linux-based operating system via Modbus communications, thus controlling which previously via PLC can be taken over by the Raspberry Pi. This research also made for monitoring the working of the system, because the Raspberry Pi was be equipped by wireless that will be used for communication to a PC (personal computer) without using cables. the results of this research is a wireless PC can monitor changes 0-10 Volt analog voltage, the output response on the PLC and PLC output can be controlled in accordance with the desired system
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

Abstract

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.
Rancang Bangun Alat Hand Sanitizer Otomatis dan Pengukur Suhu Tubuh Rouhillah; Inzar Salfikar; Hafis Husna
J-Innovation Vol. 13 No. 1 (2024): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v13i1.280

Abstract

During the Covid-19 pandemic, medical equipment is needed by all humans. One of them that is widely used as initial protection is hand sanitizer. Hand sanitizer is an antiseptic in the form of a gel that is widely used as a practical hand sanitizer. This final project aims to make a body temperature checking device and automatic hand sanitizer spraying, so that with this tool it can help prevent the transmission of the Covid-19 virus in routinely checking body temperature and cleaning hands from bacteria or germs without touching the tool. The sensors used in the manufacture of this final project consist of a temperature sensor mlx90614 as a body temperature detector and a proximity sensor as a trigger for a water pump. LCD (Liquid Crystal Display) serves to display temperature data that has been detected and the speaker emits sound according to the temperature detected later. Based on the detection accurasy test, the accurasy value is 94,74%.
Implementasi Flow Sensor untuk Monitoring Debit Air pada Proses Pengisian Air Galon Air pada Proses Pengisian Air Galon Rouhillah; Inzar Salfikar; Andrian Maulana
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.v14i1.333

Abstract

Automatic monitoring of water volume during gallon filling is a technology increasingly important in the water filling industry, particularly for ensuring accuracy and efficiency in the distribution process. This tool aims to monitor the water flow rate during the filling of mineral water gallons using a Flow Sensor. An Arduino Uno serves as the controller for this system. When the water pump is activated to fill the gallon, the flow sensor measures the amount of water flowing through it by generating pulses, which are then sent to the Arduino Uno for processing and calculation of the water flow rate. The results of these calculations are displayed on an LCD screen, stored in EEPROM memory for long-term data recording, and can be monitored remotely via a smartphone. This gallon water filling tool has a system accuracy percentage of 98%.
Co-Authors Ahmad Furgan Andrian Maulana Bariq Fajar Musaid Budi Amri Effendi Effendi Fajri Aqsalmi Fira Fazila Furqan Farih Hafis Husna Herri Darsan Ichan, Maulidi Ilham Hasbiullah Javid Hamar Kurniawati Muhammad Agil Haikal Muhammad Rivai Muharrir Alwathani Rachmad Ikhsan Rizki Faulianur Rizki Ramadhan Salfikar, Inzar Susilawati, Feri Tri Arief Sardjono Zaki Akbar Zoel Fachri