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All Journal JREC (Journal of Electrical and Electronics) Jurnal Qua Teknika DIKEMAS (Jurnal Pengabdian Kepada Masyarakat) JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) J-ADIMAS (Jurnal Pengabdian kepada Masyarakat) Journal of Robotics and Control (JRC) Journal of Computer Science and Engineering (JCSE) East Asian Journal of Multidisciplinary Research (EAJMR) Publikasi Hasil Pengabdian Kepada Masyarakat. Journal Geuthee of Engineering and Energy
Budi Artono
Program Magister Teknik elektro Fakultas Teknik, Universitas Brawijaya
Aerospace Engineering Humanities Automotive Engineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Mechanical Engineering Social Sciences Other

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Rancang Bangun Portable Micro Hydro dengan Pelton Turbine Laksono, Karisma Tri Agung; Kumala N, Hanifah Nur; Artono, Budi
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol. 8 No. 1 (2023): JOURNAL OF ELECTRICAL, ELECTRONICS, CONTROL, AND AUTOMOTIVE ENGINEERING (JEECAE
Publisher : Pengelolaan Penerbitan Publikasi Ilmiah (P3I) Politeknik Negeri Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32486/jeecae.v8i1.614

Abstract

Salah satu masalah utama dalam dunia yang bergerak cepat ini adalah untuk memenuhi permintaan energi dengan cara yang paling ekonomis dan ramah lingkungan. Tugas Akhir ini bekerja pada Vertical-axis wind turbines (VAWT) yang memberikan solusi yang relatif murah sebagai alternatif energi terbarukan. Kincir angin berputar dengan angin yang cukup akan menghasilkan listrik karena dengan adanya generator. Pada tugas akhir ini dirancang Portable Wind Turbine yang menggunakan blade jenis helix. Portable Wind Turbine terdiri dari turbin angin jenis helix, dinamo dc, dan baterai. Pada alat ini memodifikasi sudut pitch dan diameter sudu yang dilakukan melalui simulasi. Hasil perancangan berupa prototype yang memiliki blade dengan diameter 6 cm, 12 cm, 18 cm, dan 24 cm. Pengujian prototype dilakukan dengan membandingkan semua ukuran blade menggunakan variasi kecepatan angin buatan. Diameter sudu sebesar 18 cm menghasilkan ou tput yang paling baik jika dibandingkan dengan ukuran blade yang lainnya. Tegangan maksimal yang dihasilkan dengan kecepatan angin 6 m/s sebesar 4,19  V dan arus 0,04 Ampere.
PENGATURAN KECEPATAN MOTOR INDUKSI 3 PHASE PADA BLOWER PENGERING PADI MENGGUNAKAN GAS BERBASIS PLC DAN HMI Wahyuni, Putri Dian; Artono, Budi; Winarno, Basuki
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol. 6 No. 1 (2021): JOURNAL OF ELECTRICAL, ELECTRONICS, CONTROL, AND AUTOMOTIVE ENGINEERING (JEECAE
Publisher : Pengelolaan Penerbitan Publikasi Ilmiah (P3I) Politeknik Negeri Madiun

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Abstract

Di dunia saat ini elektronik dan kontrol berkembang sangat cepat melalui sarana media.  Teknologi elektronik dapat membuat alat yang dapat membantu petani untuk mengeringkan padi dengan cara yang lebih efisien karena Indonesia merupakan negara agraris namun memiliki cuaca yang tidak menentu. Dengan ini mencoba membuat fasilitas pegering yang tentunya dapat menghemat waktu dan tenaga yang menggunakan sensor kelembaban, dan sensor suhu serta menggunakan gas sebagai pengganti panas sinar matahari. Motor AC adalah suatu perangkat yang mengubah energi listrik menjadi energi kinetik. Pada alat pengering padi Motor AC digunakan untuk memutar tabung dan blower sehingga diperlukan sistem kontrol untuk menghidupkan motor tersebut. Bahan yang digunakan dalam proses pembuatan tabung pengering padi menggunakan plat besi dengan diameter tabung 40 cm dan panjang 50 cm. Tabung dan blower yang diputar oleh Motor AC dikontrol menggunakan PLC (Programmable Logic Controller) dan Variable Speed Drive dengan rpm yang telah ditentukan serta HMI (Human Machine Interface) untuk memantau proses alat tersebut. Dalam proses pengeringan sensor suhu untuk mengukur panas dari gas dan sensor kelembaban digunakan untuk mengukur kadar air paadi yang telah dikeringkan. Dengan adanya alat ini diharapkan dapat membantu petani untuk mengeringkan padi saat hujan tiba serta salah satu keunggulan alat ini yaitu bisa digunakan saat malam hari
Color-Based Image Processing for Autonomous Human Following Trolley Robot Navigation with Camera Vision Artono, Budi; Nugroho, Widya; Wahyudi, Rizki
Journal of Computer Science and Engineering (JCSE) Vol 5, No 1: February (2024)
Publisher : ICSE (Institute of Computer Sciences and Engineering)

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Abstract

The rapid advancements in the field of robotics have spurred intensive research, particularly in the industrial sector, aiming to develop robots that can assist in simplifying daily human tasks. One emerging area of research involves the design of a cargo-carrying robot trolley. This trolley robot has the capability to follow a person carrying items by recognizing the color of the clothes worn by that person through image processing. The objective of this research is to facilitate the transportation of goods, especially in airport environments, by enabling the robot to identify and follow human objects with a minimum distance of 30 centimeters and a maximum distance of over 3 meters. The design system of this robot trolley utilizes a camera sensor to detect the object to be followed through image processing using OpenCV on the Microsoft Visual Studio 2012 platform. The image processing results in PWM values sent to the Arduino to drive DC motors. Additionally, ultrasonic sensors are employed to restrict the robot's movement in its surroundings, preventing collisions. The robot's speed can adjust according to the walking speed of a person. If the robot is moving too fast, it will be stopped by the ultrasonic sensor when the distance between the robot and the person being followed is less than 30 cm, avoiding collisions between the robot and the person.
Sistem Monitoring Mesin Pengaduk Adonan Roti Otomatis berbasis Internet of Things (IoT) Artono, Budi; Prakoso, Dimas Nur; Lestari, Tri Annisa Widya
Journal of Computer Science and Engineering (JCSE) Vol 4, No 1: February (2023)
Publisher : ICSE (Institute of Computer Sciences and Engineering)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36596/jcse.v4i1.660

Abstract

The purpose of this research is to develop an Internet of Things (IoT)-based automated bread dough mixing machine monitoring system using ultrasonic sensors and an integrated load cell sensor with a solenoid valve. The system is designed to control the distance between each bowl of dough ingredients and measure the weight of the mixed dough using a smartphone as the control interface. Additionally, the system allows users to issue on/off commands to the solenoid valve. This system provides detailed monitoring of the mixed blue dough ingredients. The research is conducted through several stages, including literature review, system design, hardware development, software development, implementation and integration, and testing. The testing phase involves both hardware and software components to ensure their functionality.
PKM Solar Submersible Pump Based on Internet Of Things Artono, Budi; Winarno, Basuki; Wicaksono, Ryan; Habsari, Kumala Mahda; Kumala, Hanifah Nur; Dona, Febi Roma
PUBLIKASI PENGABDIAN KEPADA MASYARAKAT Vol 2 No 2 (2023)
Publisher : Fakultas Ekonomi dan Bisnis Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/padimas.v2i2.3552

Abstract

Jawa timur banyak bermunculan industri kecil terutama usaha mikro kecil. Sebuah peluang besar yang dapat dikembangkan untuk menambah penghasilan bagi masyarakat maupun daerah. Provinsi Jawa Timur sendiri memiliki banyak kluster industri yang beraneka ragam. Melalui kegiatan program kemitraan masyarakat ini diharapkan kelompok usaha mikro kecil khususnya pembesaran ikan gurami air tawar dapat memanfaatkan potensi untuk memodifikasi pompa air sehingga dapat menghemat biaya produksi. Tidak bisa dipungkiri jika saat ini para petani masih mengandalkan pompa diesel sehingga biaya produksi melambung tinggi untuk biaya solar dan bensin. Normalnya dalam satu minggu rutinitas penggantian air kolam dilakukan 2 kali sehingga dapat mengurangi resiko ikan gurami dari penyakit cacar ataupun penyakit lain yang diakibatkan oleh air yang kotor. Dengan memanfaatkan submersible pump menggunakan tenaga matahari (solar cell) dan suntikan teknologi Internet Of Things (IoT) dapat membantu petani untuk menghemat biaya produksi terutama kebutuhan akan bahan bakar.
IoT on power monitoring and protection for home energy consumption Artono, Budi; Putra, Rakhmad Gusta; Prasetyo, Yuli; Ningrum, Hanifah Nur Kumala
Journal Geuthee of Engineering and Energy Vol 4, No 1 (2025): Journal Geuthee of Engineering and Energy
Publisher : Geuthèë Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52626/joge.v4i1.54

Abstract

Electrical hazards can occur due to inadequate protection systems, often leading to fires in homes or buildings. One major cause of this issue is users' lack of knowledge regarding standard electrical installations. To overcome this, the Internet of Things (IoT) offers a promising solution by enabling remote and real-time control and monitoring of electrical devices. By integrating IoT technology with home electrical systems, users can enhance safety and manage energy consumption more effectively. A practical implementation involves using a digital kWh meter, which allows accurate measurement of electrical quantities such as current, voltage, power, and power factor (cos Φ) without requiring additional sensors. The system was tested using three household loads: a 5W smartphone charger, a 40W lamp, and a 100W single-phase motor. Monitoring is done through an Android application and a web browser interface, making it accessible and user-friendly. These platforms display real-time electrical parameters and provide estimates of energy costs. Additionally, the system includes a current limitation feature, which is configured by Arduino and can be adjusted through the Android or web interface. This adds an extra layer of protection against overloads, enhancing the safety and efficiency of household electrical usage. The integration of IoT and digital metering contributes significantly to smarter and safer energy management.
Implemantion of DC-DC Converter for lighting Winarno, Basuki; Artono, Budi; Triyono, Budi; Pratama, Muhammad Rio
East Asian Journal of Multidisciplinary Research Vol. 3 No. 2 (2024): February 2024
Publisher : PT FORMOSA CENDEKIA GLOBAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55927/eajmr.v3i2.7424

Abstract

Lighting is still largely dependent on PLN, which can be replaced with sunlight, the electrical energy of which can be stored in batteries. To regulate this electrical energy source, a DC-DC converter is needed. This converter functions to change the voltage according to needs, one of the methods applied is using a bidirectional dc/dc converter. In this method the charging and discharging processes are controlled using proportional integral control analytical methods. Implementation of a bidirectional dc-dc converter for lighting using a DC system is more efficient compared to an AC system because part of the system's power is absorbed by the inverter.
Development of an internet of things-based monitoring system for small vertical axis wind turbine Prasetyo, Yuli; Triyono, Budi; Artono, Budi; Triwijaya, Santi; Khakim, Ainul; Ramadhan, Ade Nofa
Journal Geuthee of Engineering and Energy Vol 4, No 2 (2025): Journal Geuthee of Engineering and Energy
Publisher : Geuthèë Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52626/joge.v4i2.65

Abstract

Small-scale wind turbines often face challenges related to low energy conversion efficiency and the lack of adequate monitoring and automatic protection systems against fluctuating weather and load conditions. This study presents the design and implementation of an Internet of Things (IoT)-based monitoring and protection system for a Small Vertical Axis Wind Turbine (VAWT). The system utilizes Arduino Uno and NodeMCU ESP8266 microcontrollers integrated with INA219, LM35, anemometer, infrared, and DC voltage sensors. Data acquisition and transmission are managed through Wi-Fi communication and displayed on the ThingSpeak web platform for real-time visualization. Experimental testing demonstrated that the system successfully measured and transmitted voltage, current, power, wind speed, temperature, and rotational speed parameters with an average data transmission latency of less than 3 seconds. The protection mechanism activated effectively under simulated abnormal conditions such as over-speed and over-temperature, automatically disconnecting the load to prevent turbine damage. The measurement accuracy for INA219 voltage and current sensors reached ±0.2 V and ±0.05 A, while temperature detection with LM35 had an average deviation of ±0.8 °C. The results indicate that the proposed IoT-based VAWT monitoring system is capable of providing reliable, low-cost, and real-time supervision suitable for small-scale renewable energy applications. Furthermore, it can be used as a learning prototype in vocational education to understand the integration of renewable energy and IoT technologies.
Co-Authors Amrullah, Muhammad Narrokhim Ardian Prima Atmaja Ardiansyah, Soni Dwi Bachri, Arizal Alfan Basuki Winarno, Basuki Budi Triyono Dimas Nur Prakoso Dona, Febi Roma Fakhrudi, Yoga Ahdiat Fredy Susanto Habsari, Kumala Mahda Haryo, Raden Jasa Kusumo Ikhwan Baidlowi Sumafta K. H, R. Jasa Khakim, Ainul Kumala N, Hanifah Nur Kumala, Hanifah Nur Laksono, Karisma Tri Agung Lawu, Kanjeng Sunan Lestari, Tri Annisa Widya Lestariningsih, Tri ma?ruf, Ubaeydilah N., Hanifah N. K. Ningrum, Hanifah Nur Kumala Nugroho, Widya Pratama, Muhammad Rio Priyanto Priyanto Qathrunnada, Mitha Anandya Rahma, Isnani Mila Rakhmad Gusta Putra Ramadhan, Ade Nofa Rizki Wahyudi Salim, Alfi Tranggono Agus Satria Wardana, Dhimas Wahyu Suluh Argo Pambudi, Suluh Argo Triwijaya, Santi Wahyuni, Putri Dian Wicaksono, Ryan Yudha, R. Gaguk Pratama Yuli Prasetyo