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All Journal Information Technology and Telematics Dinamik Jurnal Ilmiah Dinamika Teknik Jupiter Proceeding SENDI_U Jurnal Teknik Komputer AMIK BSI JURNAL MEDIA INFORMATIKA BUDIDARMA Jurnal Teknoinfo Journal of Dedicators Community J-SAKTI (Jurnal Sains Komputer dan Informatika) Jurdimas (Jurnal Pengabdian Kepada Masyarakat) Royal STRING (Satuan Tulisan Riset dan Inovasi Teknologi) TEKTRIKA - Jurnal Penelitian dan Pengembangan Telekomunikasi, Kendali, Komputer, Elektrik, dan Elektronika JUSIM (Jurnal Sistem Informasi Musirawas) Jurnal Informatika dan Rekayasa Elektronik Jurnal JTIK (Jurnal Teknologi Informasi dan Komunikasi) JATI (Jurnal Mahasiswa Teknik Informatika) Jurnal Tunas Dinamika Informatika: Jurnal Ilmiah Teknologi Informasi MEANS (Media Informasi Analisa dan Sistem) Jurasik (Jurnal Riset Sistem Informasi dan Teknik Informatika) Journal of Applied Data Sciences J-SAKTI (Jurnal Sains Komputer dan Informatika) Joutica : Journal of Informatic Unisla Jurnal Pengabdian Masyarakat Intimas (Jurnal INTIMAS): Inovasi Teknologi Informasi Dan Komputer Untuk Masyarakat Kesatria : Jurnal Penerapan Sistem Informasi (Komputer dan Manajemen)
Zuly Budiarso
Uniersitas Stikubank Semarang
Arts Humanities Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Library & Information Science Mathematics Public Health Social Sciences Other

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Rancang Bangun Sistem M-COMOS (Mobile Control Motorcycle System ) Berbasis Arduino Khoirul Anam; Zuly Budiarso
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 14 No 2-a (2022): Jupiter Edisi Oktober 2022
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281./4852/5.jupiter.2022.10

Abstract

A motorcycle security system is a very important system for vehicle owners, while the security system provided by motorcycle companies is considered not able to overcome it. In this study, an M-Comos system (Mobile Control for Motorcycle System) is created, which is a motor vehicle security device that can be controlled remotely and can track where the vehicle is when it is lost or stolen via GPS. By using the Arduino uno microcontroller as the central controller and the SIM800L module to transmit data over the GPRS communication network, then using the command input from the Blynk Application as the device controller.
MODEL PENGENDALIAN SWITCHING AND MONITORING MENGGUNAKAN PENDEKATAN EMBEDDED-HTML SYSTEM (STUDI KASUS PADA KUMBUNG BUDIDAYA JAMUR TIRAM) Eddy Nurraharjo; Zuly Budiarso; Dewi Handayani U. N
TEKTRIKA Vol 7 No 1 (2022): TEKTRIKA Vol.7 No.1 2022
Publisher : Telkom University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25124/tektrika.v7i1.4358

Abstract

Fokus pada model sebuah sistem kendali kekinian, pemanfaatan teknologi Internet of Things berbasis mikrokontroler telah diterapkan dan difungsikan pada sebuah sistem pengendalian jarak jauh. Kolaborasi bersama HTML (embedded-HTML) yang dilekatkan pada struktur program berbasis bahasa C, pada antarmuka IDE Arduino, menjadi fitur pembaharuan dalam pemodelan kendali cerdas ini. Penelitian ini ditujukan untuk membuat model sistem kendali dasar jarak jauh yang memiliki desain tiga tombol pengendalian, yang masingmasing digunakan untuk 1) fungsi pengendalian beban LED, 2) fungsi pengendalian akses data sensor dan 3) pengendalian serempak kedua fungsi. Sistem pengendalian berfungsi baik dan berhasil diuji dan diakses melalui sebuah alamat IP dinamis, secara wireless dan peer to peer melalui WiFi, dengan tampilan situs tanpa perlu terhubung data internet. Pengujian visualisasi luaran sistem dilakukan dengan beban 3 buah LED dan masukan sistem diperoleh dari hasil pendeteksian variabel suhu dan kelembaban sensor DHT21. Hasil pengujian sistem menunjukkan keberhasilan 100% dalam proses switching dan monitoring menggunakan pendekatan embedded-HTML. Kecepatan transfer data bergantung pada kecepatan receive dan transmit data pada jaringan Wifi yang tersedia. Akhirnya penulis berkesimpulan bahwa sistem pengendalian berbasis WeMOS ini layak dan mampu dimanfaatkan untuk fungsi pengendalian berbasis web. Kata Kunci: HTML, WeMOS, mikrokontroler, wireless, switching
PELATIHAN DESAIN GRAFIS UNTUK CETAK SABLON DIGITAL PADA TAMAN PINTAR “TUNAS BANGSA” MANYARAN SEMARANG Teguh Kristianto; Zuly Budiarso; Hersatoto Listiyono; Isworo Nugroho
Intimas Vol 3 No 1 (2023)
Publisher : Fakultas Teknologi Informasi dan Industri Unisbank

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35315/intimas.v3i1.9099

Abstract

Peluang bisnis desain adalah salah satu peluang usaha yang banyak dijumpai, di lingkungan rumah ataupun kantor. Bisnis sablon kaos merupakan usaha yang paling menarik untuk saat ini, mengingat kaos akan selalu dicari dan dibeli oleh masyarakat. Pemberdayaan remaja yang tergabung Taman Pintar “Tunas Bangsa” di RW 1 kelurahan Manyaran Kecamatan Semarang dilakukan dengan membekali remaja dengan ketrampilan di bidang desain sablon digital. Jenis pelatihan yang dilakukan adalah pelatihan desain menggunakan komputer. Pelatihan dengan metode ceramah/persentasi, metode praktik langsung, metode tanya jawab dan simulasi. Metode praktik langsung ini bertujuan untuk memberikan kesempatan untuk belajar langsung mengenai langkah dasar dalam pembuatan desain sablon. Desain sablon diharapkan dapat meningkatkan kesejahteraan masyarakat sekitar, menciptakan lapangan kerja dan meningkatnya kesadaran remaja untuk mengembangkan Taman Pintar.
PEMODELAN SISTEM PENDUKUNG KEPUTUSAN PADA BUDIDAYA JAMUR TIRAM Eddy Nurraharjo; Muji Sukur; Zuly Budiarso
Dinamik Vol 27 No 1 (2022)
Publisher : Universitas Stikubank

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35315/dinamik.v26i2.8922

Abstract

Sistem kendali telah banyak diterapkan dan dimanfaatkan untuk membantu kinerja manusia seiring dengan perkembangan kebutuhannya. Segenap bidang yang tanpa terkecuali pada bidang kajian utama hal ini adalah bidang pertanian. Sasaran utama dlam kajian ini adalah para petani penggerk dan pembudidaya tanaman produktif jamur. Banyak pelaku dalam budidaya jamur tiram ini seolah-olah mulai usaha lalu berhenti, dimana beberapa kendala terjadi dan mengakibatkan penurunan aspek kualitas dan kuantitas hasil panen. Salah satu pengaruh utama dan terbesar adalah perubahan dan perbedaan iklim atau cuaca dari suatu musim ke musim berikutnya, dan dari tata letak geografissuatu daerah dengan daerah lainnya. Sementara itu dari bidang keilmuan spesifik yaitu ilmu komputer telah mengkaji tersendiri sebuah sistem dengan metode sistem pendukung keputusan, dan hal inilah yang akan menjadi bidang implementasi pada sebuah sistem bantu lapisan masyarakat pertanian, dengan melakukan penerapan SPK pada sistem kendali terpadu dan terprogram, terkait dengan permasalahan utama yaitu variabel suhu, kelembaban dan intensitas cahaya. Realisasi perangkat bantu yang menggunakan algoritma sistem pendukung keputusan terpadu tercipta dengan berhasil membuatnya dalam model alat kontrol menggunakan sensor Light Depending Resistor (LDR) dan sensor suhu beserta kelembaban. Hasil yang diperoleh berdasarkan fungsionalnya adalah nilai rata-rata suhu 25 - 31oCelcius, tingkat intensitas cahyaa pada 200 lumen dan kelembaban berkisar pada 25% - 81% RH. Sistem mampu berjalan dengan sempurna menggunakan kendali mikro Arduino dan telah terimplementasi pada beberapa lokasi mitra petani pembudidaya jamur tiram.
Rancang Bangun Sistem Smart Parkir Berbasis Arduino Hendy Tri Laksono; Zuly Budiarso
STRING (Satuan Tulisan Riset dan Inovasi Teknologi) Vol 7, No 3 (2023)
Publisher : Universitas Indraprasta PGRI Jakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30998/string.v7i3.15980

Abstract

Parking lots are of course the first thing to look for when we are in public places. However, conventional parking lots often do not provide adequate information about the slots that are still available in parking area. This research on a smart parking system consists of an Ultrasonic Hc-Sr04 sensor to know the parking slots that are occupied or empty. The information can be viewed on LCD screen on the entrance of parking lots, telling in details whether the parking slots are occupied or still available. Based on the Arduino Uno test results, the sensor can manage the circuit properly and display information about available parking slots. Besides that, the Ultrasonic Hc-Sr04 sensor can detect vehicles in the parking area and can set the front bar to prevent other vehicles from entering when the entire parking area is full.
Alat Pengatur Aliran Panas pada Pengering Pakaian Berbasis Arduino Zuly Budiarso; Eddy Nurraharjo; Antono Adhi; Hersatoto Listiyono
STRING (Satuan Tulisan Riset dan Inovasi Teknologi) Vol 7, No 3 (2023)
Publisher : Universitas Indraprasta PGRI Jakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30998/string.v7i3.15291

Abstract

Sensor is equipment needed to support the application of digital technology in various fields. The characteristics of a sensor that only produces analog quantities are a challenge itself in implementing digital technology using sensors. The combination of sensors and Arduino microcontrollers can be used to control various equipment systems. One of the applications of temperature sensors and Arduino microcontrollers is to control the flow of heat in a clothes dryer. The hot air generated by the equipment will burn the air in a tube. The resulting heat is flowed into the clothes dryer using a fan. To make the temperature in the clothes drying chamber stay at a certain point, a device is needed to regulate the flow of heat exhaled from the heating chamber. The regulation of the temperature is performed by adjusting the on and off buttons of two fans that blow hot air into the clothes drying chamber. By adjusting these two devices using a temperature sensor and Arduino microcontroller, the temperature in heating chamber can be maintained in a certain temperature point. The test results show that all the equipment used in the experiment work well. 
Rekayasa Alat Ukur Panjang Gelombang Suara Menggunakan Tabung Resonansi Berbasis Arduino Untuk Pengembangan Praktikum Fisika Dasar Zuly Budiarso Budiarso; Eddy Nurraharjo; Hersatoto Listiyono
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 15 No 1b (2023): Jupiter Edisi April 2023
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281./5254/15.jupiter.2023.04

Abstract

The development of digital technology has changed the control system technology from an analog control system to a digital control system. Microcontroller that is often used today is Arduino. With the capabilities that exist in arduino, can be applied to measuring the wavelength of sound. Equipment that is often used in basic physics practicum on sound waves is a resonance tube. The purpose of the resonance tube experiment is to find a condition in which a resonance event occurs which is indicated by an interference event between the sound waves originating from the sound source at the end of the tube and the sound waves reflected by the surface of the water in the tube. By using arduino all these equipment can be replaced. Sound sources can be generated from Arduino whose frequency can be adjusted by using the point of occurrence of the resonance event to be replaced by a sound sensor, for the water level when resonance occurs, a proximity sensor is used whose results are displayed on the LCD screen, while to detect the water level, two light sensors are used. placed at the bottom of the tube and the top of the tube. To adjust the water level in the tube is done by increasing and decreasing the volume of water in the tube.The measurement results using this metode have a higher level of accuracy then manual measurements. Keywords: Arduino, Resonance Tube, Sensor, Wavelength
Sistem Sistem Peringatan Dini Kebocoran Gas Pada Waterheater Menggunakan Sensor Mq-2 Berbasis IoT: Sistem Peringatan Dini Kebocoran Gas Pada Waterheater Menggunakan Sensor Mq-2 Berbasis IoT Brian Hakim Pangestu; Zuly Budiarso
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 15 No 1d (2023): Jupiter Edisi April 2023
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281./6523/15.jupiter.2023.04

Abstract

The cause of gas leakage accidents is usually due to a lack of immediate notification, especially since this is a gas that is invisible to the eye and very difficult to smell. Not only gas in the kitchen stove, but the use of gas is also found in warm water heaters, waterheaters for example. This research wants to provide solutions to these problems with leaks in the waterheater in the bathroom, because with such a small room, it is very dangerous if it spreads directly and is also close to a large fire during instant combustion in the waterheater engine. To solve this problem, this research uses methods including the analysis stage, the design stage, and the implementation stage. the results of this study are, if there is a gas leak in the waterheater heating machine, the Mq-2 sensor will detect and will turn on the red led indicator, then continue with the buzzer sound. Furthermore, notification via cellphone notification is also intended for people who are outside the room, which aims to pull out where the gas source comes from. Keywords— Gas leak, Waterheater, Sensor mq-2
Implementasi Metode AHP dan TOPSIS dalam Penentuan Smartphone Gaming Ika Alfiyah Noviana Ika; Zuly Budiarso
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 15 No 1d (2023): Jupiter Edisi April 2023
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281./6656/15.jupiter.2023.04

Abstract

Technological developments has a great impact on the development of types, features, specifications, and prices on smartphones that are increasingly varied. With this, people, especially game enthusiasts, have difficulty in determining smartphones according to the criteria needed. To solve this problem, we need a system that allows people to identify gaming smartphones based on certain criteria. The criteria used include RAM, battery, internal memory, processor, screen, camera, and price. This system applies the Analytical Hierarchy Process (AHP) method to obtain the weighting value of criteria and Technique for Others Preference by Similarity to Ideal Solution (TOPSIS) to produce the highest to lowest value priority ranking. From the calculation results obtained for the highest value, namely Redmi Note 9 Pro (0.787), Realme 8 (0.76), Realme 6 (0.633), Realme Narzo 50A (0.386), Realme Narzo 30A (0.379), and the lowest value Redmi Note 8 (0.127). With this system, it will make it easier for game fans to recommend the best smartphone.
Rangkaian Rancang Bangun Alat Pendeteksi Kebakaran berdasarkan Asap dan Suhu pada Dapur Restoran Berbasis Arduino dan Internet of Things Irsyad Dzikhrullah; Zuly Budiarso
Jurnal JTIK (Jurnal Teknologi Informasi dan Komunikasi) Vol 7 No 3 (2023): JULY-SEPTEMBER 2023
Publisher : KITA Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35870/jtik.v7i3.932

Abstract

Fire is a disaster that frequently threatens the safety of people and property. High fire risk requires an efficient and responsive detection system to provide early warning. Therefore, this study applies Internet of Things (IoT) technology as an innovative approach to overcome these challenges. The developed fire detection system integrates various key sensor components to achieve accurate results. The MQ-2 sensor is used to detect the presence of smoke or gas that is an early sign of a fire. Until now, flame detectors are used to detect the presence of fire. In addition, the NodeMCU acts as a data processing hub for these sensors and runs complex detection algorithms. By combining these technologies, research has shown that this fire detection system can provide accurate information in real time when a fire breaks out. Its speed of intervention reduces fire losses, helping the public and firefighters to take appropriate precautions and actions. As such, these systems have the potential to save lives and valuable community property
Co-Authors Abd. Wahid Abdul Karim Agung Prihandono Agus Perdana Windarto Aji Mulyono, Dewantoro Aji Supriyanto Anisa Istiqomah Antono Adhi Bagas lutfi Ainur Rofiq BAYU PRASETYO, OKY Brian Hakim Pangestu Darmaji, Satrio Wisnu Dewi Handayani U. N Dilan Allya Barqi Eddy Nurraharjo Eddy Nurraharjo Edy Supriyanto Edy Winarno Eka Ardhianto Eko Nur Wahyudi Faulana, Nova Hendy Tri Laksono Herny Februariyanti Herny Februariyanti Hersatoto Listiyono Husna, Himayatul Ika Alfiyah Noviana Ika Imam, Chalabi Irsyad Dzikhrullah Isworo Nugroho Jati Sasongko Wibowo Jati Sasongko Wibowo Jeffri Alfa Razaq Kasprabowo, Teguh Khoirul Anam Mardi Siswo Utomo Muji Sukur Mulya Kurnia Kasanova Nugroho, Fardha Hari nur wakhid fauzan Okta Katelia, Lisa P Purwatiningtyas Perdana, Fajar Yulian Purwadi, Dimas Indra Raharjo, Eddy Nur Rizal Adi Saputro Rizki Kurniawan, Alnando Setyawan Wibisono Suharmanto, Eko Taufiq Susi Susilowati, Susi Taufiq Dwi Cahyono Teddy Dwi Saputra Teguh Kristianto Widiyanto Tri Handoko Wijaya, Zidan Rizky Wiwien Hadikurniawati Yohanes Suhari Yunus Anis, Yunus