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All Journal JURNAL SISTEM INFORMASI BISNIS Jurnal Ilmiah Informatika Komputer Warta Ardhia : Jurnal Perhubungan Udara ELIT JOURNAL Electrotechnics And Information Technology Cerdika: Jurnal Ilmiah Indonesia Kohesi: Jurnal Sains dan Teknologi ENTRIES
Satriyo Satriyo
Universitas Gunadarma
Humanities Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Health Professions Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Public Health Social Sciences Transportation Other

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Perancangan Dan Implementasi Sistem Kendali Kursi Roda Berbasis Mikrokontroler Syahrizan, Syahrizan; Mardianto, Eko; Satriyo, Satriyo; Tarkan, Rianda
Electrical Network Systems and Sources Vol 3 No 2 (2024)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1611

Abstract

This research aims to develop a wheelchair control system based on a microcontroller using Arduino Uno, a joystick, and Bluetooth HC-05 for wireless connectivity. The goal is to enhance the affordability and comfort of wheelchair users through this control system. Arduino Uno serves as the main control unit, receiving input from the joystick. Wireless connection utilizes Bluetooth HC-05 technology, providing flexibility for remote operation. The system design involves selecting appropriate sensors and actuators to ensure responsiveness and everyday safety. This innovation eliminates the need for wheelchair users to manually operate it with significant effort. The control system provides an opportunity for those with physical limitations to be independent and enhance mobility in daily activities. With this solution, wheelchair users can experience greater independence and participate more actively in various activities.
RANCANG BANGUN AKSES RUANGAN MENGGUNAKAN SISTEM PENGENALAN WAJAH Rawing, Rawing; Satriyo, Satriyo
Electrical Network Systems and Sources Vol 3 No 2 (2024)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1615

Abstract

In modern times filled with technological advances, concerns about crime, especially the rise of theft cases, are increasing. Various methods are used by criminals to open the door of the house due to weaknesses in traditional security systems, such as door locks or padlocks. Therefore, a more sophisticated security solution is needed to protect the room in one way, namely the use of an automatic door security system with facial recognition as an exclusive method to grant access.Facial recognition as a biometric technology is considered an innovative solution in protecting access to rooms. The face recognition process involves face detection, feature extraction, and face recognition, forming a system that can accurately identify individuals. By using a camera as a sensor, users do not need to make physical contact, simply facing the camera to prove their identity. The main advantage of this system is its ability to reduce the risk of crime, as the room door will only open if the detected face has been registered in the system.This research has successfully built a reliable face recognition system for automatic doors by using Huskylens camera as a sensor, Solenoid as a door lock, and ESP32 as a microcontroller, this tool is expected to be an effective solution to improve room security. The main objective of the researcher is to successfully implement a facial recognition system that is accurate and provides proper access to entitled individuals, creating an additional layer of security without reliance on traditional physical locks.Keywords: Face Recognition, ESP32.
Rancang Bangun Prototipe Sistem Pemantauan Tetes Cairan Infus Menggunakan Teknologi Internet Of Things (IoT) Dan Integrasi Perangkat Android Rangga, Rangga; Syamsudin, Mariana; Satriyo, Satriyo
Electrical Network Systems and Sources Vol 3 No 2 (2024)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1631

Abstract

This research focuses on developing an infusion fluid drip monitoring system prototype using Internet of Things (IoT) technology and Android device integration, which aims to increase efficiency and safety in managing intravenous fluids in medical units. So far, monitoring of infusion drops is still carried out manually by medical staff, In the meantime, the quality of infusion monitoring can affect the patient's condition and overall treatment results. the system consists of a liquid drop sensor connected to a microcontroller as a controller unit, with data sent via a wireless communication module to an IoT server. Users can access real-time information via an Android application that provides graphical displays of drip rate, infusion volume, and error warnings. Through simulation testing of clinical conditions, the results indicate that this system operates effectively and provide quick notification of significant changes in infusion fluids. This prototype can improve the efficiency of infusion fluid management, reduce the risk of dosing errors, and provide better monitoring of patient conditions in healthcare units. The possibility of integration with other technologies can also increase the functionality and security of these systems.Keywords: Infusion monitoring system, Internet of Things (IoT), Android, drip sensor, healthcare efficiency.
Rancang Bangun Robot Sepak Bola Beroda Menggunakan Kamera Huskylens Afridho, Jimmy; Riyanto, Agus; Satriyo, Satriyo; Ridhwan Sufandi, Muhammad; Indah Rahayu, Wiwit
Electrical Network Systems and Sources Vol 3 No 2 (2024)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1635

Abstract

A wheeled soccer robot is designed to move and kick the ball to score goals. This robot is equipped with wheels and motors for movement, a camera as its "eyes," and a servo motor for kicking the ball. One of the cameras that can be used is the HuskyLens, an artificial intelligence camera specifically developed for robotics applications. The use of HuskyLens in the soccer robot has the potential to change how the robot interacts with the ball, opponents, and its environment in a smarter and more adaptive way. The robot is designed to move and kick the ball automatically. Components used include an Arduino Uno microcontroller, HuskyLens camera, L293D motor driver shield, MG90S servo motor, proximity sensor, DC gearbox motor, and mecanum wheels. This research involved direct observation of several tests to evaluate the effectiveness of the components, particularly the HuskyLens camera, as the robot's "eyes." The results of the research and tests show that the robot successfully detects and approaches the ball to kick it. The camera can detect the ball at a distance of up to 12 meters, and the robot can kick the ball from a distance of up to 1.4 meters. Keywords : Robotics, huskylens, l293d motor driver shield, proximity sensor, Arduino Uno microcontroller.
Monitoring Tegangan, Arus, dan Daya Pada PLTS 20WP Berbasis Internet of Things (IoT) Deyi, Deyi; Satriyo, Satriyo; Syamsudin, Mariana; Rianda, Rianda; Ilyas Hadikusuma, Mohd
Electrical Network Systems and Sources Vol 3 No 2 (2024)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1644

Abstract

Solar Power Plants (PLTS) have great potential in Indonesia due to the year-round sunshine. To monitor the performance of solar panels, which are the main component of PLTS, an effective monitoring system is required. However, there are several challenges in remote monitoring of PLTS. The solution is to use a device that helps humans monitor PLTS performance and send notifications to phones or computers via the internet. One platform that can be used is Adafruit, an IoT platform that offers remote monitoring via the internet with hardware support and a broad community. The obtained data show that the measurement values of current, voltage, and power from the battery, solar panels, and inverter have relatively small deviations, with a Relative Deviation Average (RSR) of 4.4676%. The Overall Accuracy Rate, reaching 95.5324%, indicates that the system is reliable in providing accurate measurements, closely matching the expected reference values. Keywords: Monitoring System, Internet of Things (IoT), Adafruit.
Rancang Bangun Trainer Digital Berbasis Field Programmable Gate Array Sihombing, Berlian; Mardianto, Eko; Ridhwan Sufandi, Muhammad; Satriyo, Satriyo; Ilyas Hadikusuma, Mohd; Chandra, Yudi
Electrical Network Systems and Sources Vol 2 No 2 (2023)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1623

Abstract

In modern times, aspects of life have developed increasingly rapidly, especially in the field of electronics and technology. Where there are various components that can be programmed digitally,which includes Field Programmable Gate Array, which has been widely developed and studied. Thesystem to be operated is the basic logic gate, running led, flip flop, dc motor and stepper. The materialdiscussed in the trainer system programming is about counters, ring counters, and buffers. This trainerhelps the student learning system in designing digital systems that will program a system using a programlanguage, namely the VHDL language.
Sistem Monitoring dan Smart Farming untuk Peternakan Anak Ayam Berbasis Internet of Things (IoT) Eka Prasetya, Erlangga; Fadillah, Nurul; Satriyo, Satriyo; Rusman, Rusman; Yuwono Tharam , Medi
Electrical Network Systems and Sources Vol 2 No 2 (2023)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v3i2.1632

Abstract

This final project discusses the implementation of an Internet of Things (IoT)-based Monitoring System and Smart Farming for chicken farming. This technological innovation aims to enhance productivity and sustainability in the livestock industry. By connecting sensors to the IoT network, farmers can monitor the real-time conditions of the poultry house, such as temperature, humidity, and air quality. The objective of this writing is to design an IoT-based monitoring and smart farming system specifically for use in chicken farming. This system will enable real-time area monitoring, automation of feeding and drinking processes, and data management for farmers. The benefits of this proposal for students include enhancing knowledge about IoT and monitoring systems in the field of poultry farming. In related fields of study, this final project will provide an understanding of IoT application in agriculture and livestock. Meanwhile, for farmers and the livestock industry, the benefits lie in improving the productivity and quality of poultry farming.
Co-Authors Abu Bakar Adian Fatchurrohim Afridho, Jimmy Agus Riyanto Bagus Setiawan chandra, yudi Deyi, Deyi Dina Sonia Eka Prasetya, Erlangga Eko Sediyono Fadli, Rifai Hadikusuma, Mohd Ilyas Indah Rahayu, Wiwit Mardianto, Eko Mariana Syamsudin Nanda Rusyda Saufa Nurul fadillah, Nurul Permadi, Krisdhita Ngudi Rangga, Rangga Rawing, Rawing Rianda, Rianda Ridhwan Sufandi, Muhammad Rusman Rusman Salim, Sy. Agus Sihombing, Berlian Syahrizan, Syahrizan Syahrul Fahrezi Tarkan, Rianda Veithzal Rivai Zainal Yohannes Chrysostomos Hendro Yuwono Yuwono Tharam , Medi