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Indonesian Journal of Electrical Engineering and Electronics

ijeee
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Published by Universitas Pembangunan Nasional Veteran Jakarta

ISSN : - EISSN : 30324300 DOI : 10.54378

Core Subject : Engineering,

Electrical & Electronics Engineering

This journal accepts scientific articles in Electrical Engineering and Electronics with the form of basic research articles, clinical research articles, meta-analysis articles, literature reviews, and case reports. Themes included in this journal scientific publications include the following: Electrical Engineering Electronics Telecommunication Engineering Networks Power Instruments Automation Systems Artificial Intelligence

Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro

Articles 20 Documents

1 2

Cloud Computing in Indonesia Siddiq, Rasyid Fajar; Hasbullah M. Jufry; Dzikri Daud Alfatih; Faiz Daffa Makarim
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 1 (2024): Desember 2024 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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In recent years, the amount of data generated in the world has increased rapidly. This data includes everything such as customer information, transactional data, sensor data, and digital media. With this ever-increasing amount of data, efficient and scalable data storage, processing, analysis is critical. Therefore, cloud computing is here as a solution to this problem. Cloud computing can provide efficient and flexible infrastructure and services. This research was conducted to elaborate the implementation of cloud computing technology in Indonesia. The research method used in this research is a qualitative descriptive method in which we describe cloud computing and its implementation in Indonesia. The implementation of cloud computing in Indonesia is still lagging behind compared to developed countries, this is due to a lack of marketing and uneven internet infrastructure. Even so, the implementation of cloud computing in the business, health, education and government sectors has been done quite well.

1G to 5G Mobile Network in Indonesia Nursyahman, Irsan Aulia; Muhammad Rayhan Baras; Maisya Farah; Reby Jovanza Guestfint; Ishmah Rusdianti
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 1 (2024): Desember 2024 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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The rapid development of mobile communication technology, from the first generation (1G) to the fifth generation (5G), reflects not only global technological advancements but also adaptations to local needs and unique infrastructural challenges in Indonesia. This paper provides a comprehensive review of the evolution of mobile network technologies from 1G to 5G, focusing particularly on their implementation and impact in Indonesia. The advent of 5G marks a significant milestone worldwide, including in Indonesia, bringing profound changes in how people access and utilize communication technologies. Understanding this technological journey is increasingly relevant, considering its potential to drive innovation across various sectors such as healthcare, education, and industry. Hence, grasping the progression from 1G to 5G is essential not only for technology professionals but also for the general public who will directly experience these advancements.

KF Sensor-Based Honeypot against Hacker Attacks using Kali Linux on a Laptop Ronald Wijoyo, Albert; Ahmad Fauzan Ritonga; Naufal Syafiq; Rafi Dzikra; Firza Ilham Pratama
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 1 (2024): Desember 2024 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This research analyzes the effectiveness of using KF Sensor-based honeypots in detecting and mitigating hacker attacks using Kali Linux on a laptop. A honeypot is a security system designed to attract and study cyber-attacks by deceiving attackers into believing they have accessed a vulnerable system. KF Sensor, as a type of honeypot, serves as bait to monitor malicious activities and collect attack data. This research employs an experimental method by configuring KF Sensor on a laptop targeted by attacks from Kali Linux. The results show that KF Sensor is effective in detecting various types of attacks, such as port scanning, brute force attacks, and exploit attempts. The data collected by KF Sensor provides valuable insights into the techniques and strategies used by attackers, as well as aids in strengthening overall system security. This study concludes that implementing a KF Sensor-based honeypot is a proactive and beneficial step in enhancing network security and protecting systems from cyber threats.

ESP32-Based Smart Gloves for Message Transmission via Hand Gestures Using Telegram Application Ferdiyanto, Rania Zakia; Bayu Aji Laresa; Farraz Abdi Farein
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 1 (2024): Desember 2024 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This research aims to develop an ESP32-based Smart Gloves system that facilitates message transmission via hand gestures, integrating Telegram as a communication platform. The system utilizes an MPU9250 motion sensor embedded in the glove to detect hand gesture patterns, which are then processed by the ESP32 microcontroller to convert these gestures into text messages. The translated messages are sent in real-time through the Telegram application to the intended recipient. This process offers a solution for users with verbal communication limitations, such as stroke patients, enabling them to communicate easily and effectively. Testing results demonstrate that the system can accurately convert hand gestures into text messages and transmit them via Telegram promptly.

A Real-Time LPG Leakage Detection System Based on ESP32 with Alerts via Buzzer and Telegram Ellya Khahar, Ilham; Affandi, Fitran; Fachrezi, Dhimas
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 1 (2024): Desember 2024 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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LPG gas leakage poses a serious threat that can lead to fires, explosions, and casualties if not detected early. This research designed a gas leakage detection system based on the ESP32 microcontroller using an MQ-2 sensor to detect LPG gas concentrations, a buzzer for local alerts, and remote notifications via the Telegram application. When the gas concentration exceeds the threshold, the system triggers a red LED as a visual indicator, activates a buzzer for an audible alarm, and sends real-time notifications to users through Telegram. Testing results demonstrate that the system has a fast response time of 3-5 seconds, with high accuracy in detecting gas leaks and sending notifications. With the combination of local and remote alerts, this system is proven to be effective and reliable in enhancing household safety against the risk of LPG gas leakage.

DESIGN A DEVICE FOR DETECTING PATIENT HEART RATE AND BODY TEMPERATURE BASED ON ESP-32 Al Hakim, Daffa; Falah, Muhammad Akmal; Dzikri, Muhammad Haikal
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 2 (2025): Juni 2025 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This article discusses the development of an Internet of Things (IoT) based patient health monitoring system using ESP32 as the main microcontroller and a web server to display data in real-time. This system is equipped with a MAX 30102 sensor, DS18b20 Sensor and DHT11 Sensor, designed to measure and monitor various patient health parameters, such as body temperature, heart rate, blood pressure, and blood oxygen levels (SpO2) through sensors connected to the ESP32. Data obtained from these sensors will be sent to the web to be processed and displayed in an easy-to-understand form. With this system, it is expected to facilitate monitoring of patient health conditions remotely, and increase the efficiency of medical monitoring.

DESIGN OF MONITORING SYSTEM FOR BANKNOTE PIGGY BANK BASED ON ANDROID Kevin Ardiansah; Chattelin; Agfa Muhammad Prima
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 2 (2025): Juni 2025 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This research aims to design and build an Android-based banknote monitoringsystem utilizing Internet of Things (IoT) technology. This system uses TCS3200color sensor to detect the nominal value of banknotes based on RGB (Red, Green,Blue) values, NodeMCU ESP8266 as the main microcontroller, and 16x2 LCD todisplay the nominal information. The detected banknote data is sent to the Androidapplication in real-time, allowing users to monitor the balance, view the savingshistory, and control the opening and closing of the savings box through a solenoidmechanism. System testing showed a 98% success rate in detecting banknotes ofvarious denominations, displaying information on the LCD, and synchronizing datawith the Android application. This system is expected to improve children'sfinancial literacy by providing a more interactive, efficient, and safe savingsexperience.

DESIGN AND DEVELOPMENT OF A PIEZOELECTRIC INSOLE Raissa Fidela Ramadhdina; Manik, Dio Ramadan; Situmorang, Yohannes Raja
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 2 (2025): Juni 2025 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This study evaluates the performance of piezoelectric materials in converting kinetic energy from footsteps into electrical energy and examines the resulting current and voltage for powering an LED. Test results indicate that body weight influences the output current and voltage of the piezoelectric circuit integrated into a shoe insole. Using a capacitor, the highest recorded current was 0.48 mA at a body weight of 80 kg. In tests with an LED, the peak current was 0.28 mA, with a voltage drop to 2.99 V at the same weight. The highest voltage output with a capacitor reached 15.50 V at 80 kg. Although the generated current and voltage were relatively small, parallel circuit configurations improved performance. Capacitors proved essential for storing energy and maintaining consistent LED illumination during walking, highlighting the potential of piezoelectric shoe insoles as practical alternative power sources.

A IOT-Based Safety Helmet for Monitoring Carbon Monoxide Levels in Mining Bayhaqi, Iulyvia Andhani; Aksan, Muhammad Dhafi Aksan
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 2 (2025): Juni 2025 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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This research discusses the development of an Internet of Things (IoT)-based safety helmet designed to monitor carbon monoxide (CO) levels in high-risk areas, such as mining. The helmet is equipped with an MQ-7 sensor that detects CO concentration and provides alerts through a buzzer and notifications to the Blynk app when CO levels exceed 35 ppm. The test results show that the helmet can detect CO levels in real-time with good accuracy. During testing, the CO levels remained below 35 ppm until 01:15, but increased to 36.21 ppm at 01:40, triggering the buzzer and a "Danger" notification. This system proves reliable as a hazardous gas monitoring tool and can enhance workplace safety in high-risk areas like mining by providing early warnings of potential gas poisoning hazards.

Hollow-Core Optical Fibre Technology: The Future Solution for Loss Reduction and High-Speed Data Transmission Pradipto, Bimo; Rusdianti, Ishmah; Wijaya, Fairly; Oesman, Naufal; Sherila, Ayu
Indonesian Journal of Electrical Engineering and Electronics Vol. 2 No. 2 (2025): Juni 2025 : Indonesian Journal of Electrical Engineering and Electronics
Publisher : Indonesian Journal of Electrical Engineering and Electronics

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Hollow-core fibre (HCF) is the latest generation of optical fibre, featuring a hollow core structure that allows light to propagate through air or vacuum rather than through a glass core, as in conventional optical fibres. Utilising the principle of photonic bandgap or antiresonant guiding, HCF minimises attenuation and dispersion, making it ideal for high-speed, long-distance data transmission applications. This article discusses the physical and optical characteristics of HCF, advancements in fabrication processes, and its practical implementation in the field of optical communication. The study indicates that HCF has significant potential to replace conventional optical fibres in the future, particularly in backbone networks and latency-sensitive applications.

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Home Page

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Editorial Team

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Reviewer

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Contact Name
Silvia Anggraeni

Contact Email
silvia.anggraeni@upnvj.ac.id

Phone
+6281288053790

Journal Mail Official
silvia.anggraeni@upnvj.ac.id

Editorial Address
Jalan Raya Limo, Limo District, Depok City, Jawa Barat 16515 Indonesia

Location
Kota depok,

Jawa barat

INDONESIA

Abstract

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Home Page

OAI Link

Editorial Team

Contact

Reviewer

Google Scholar

Contact Name Silvia Anggraeni

Contact Email silvia.anggraeni@upnvj.ac.id

Phone +6281288053790

Journal Mail Official silvia.anggraeni@upnvj.ac.id

Editorial Address Jalan Raya Limo, Limo District, Depok City, Jawa Barat 16515 Indonesia

Location Kota depok, Jawa barat INDONESIA

Abstract

Abstract

Abstract

Abstract

Abstract

Abstract

Abstract

Abstract

Abstract

Abstract

Contact Name
Silvia Anggraeni

Contact Email
silvia.anggraeni@upnvj.ac.id

Phone
+6281288053790

Journal Mail Official
silvia.anggraeni@upnvj.ac.id

Editorial Address
Jalan Raya Limo, Limo District, Depok City, Jawa Barat 16515 Indonesia

Location
Kota depok,

Jawa barat

INDONESIA