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All Journal Voteteknika (Vocational Teknik Elektronika dan Informatika) Tibuana : Journal of Applied Industrial Engineering Jurnal Abadimas Adi Buana Wahana : Tridarma Perguruan Tinggi WAKTU: Jurnal Teknik UNIPA Jurnal Elemen JE-Unisla Journal of Electrical Engineering and Computer (JEECOM) Prosiding SNAST Best : Journal of Applied Electrical, Science and Technology Seminar Nasional Hasil Riset dan Pengabdian (SNHRP) Industrial and Domestic Waste Management Jurnal Pengabdian Inovasi dan Teknologi Kepada Masyarakat
Sagita Rochman
Universitas PGRI Adi Buana Surabaya
Agriculture, Biological Sciences & Forestry Arts Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Materials Science & Nanotechnology Mechanical Engineering Nursing Physics Public Health Other

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ARDUINO-BASED SOLAR WATER PUMP MOTOR CONTROL TO ADJUST WATER CIRCULATION IN HYDROPONIC PLANTS Sagita Rochman; Danu Krama
BEST Vol 5 No 1 (2023): BEST
Publisher : Program Studi Teknik Elektro Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol5.no1.7972

Abstract

Hydroponic plants are currently very popular because they do not require large land and land. By planting hydroponically, the harvest will be faster but it is necessary to pay attention to the air that is maintained, the purpose of distributing plant root nutrients, the use of solar power as a driving force for DC (Direct Current) water pumps in hydroponics is designed using several tools including: photovoltaic 10 Wp type polycrystalline, solar charge controller, 12v 5Ah battery, Arduino UNO, Dsi8b20 temperature sensor and 12V DC water pump. In this study, the author will make a solar pump motor drive (Solar Panel) and regulate the circulation of air volume and temperature in the hydroponic plant.
Rancang Bangun Sistem Otomatisasi Penyiraman Tanaman Tomat Berbasis Internet of Things Adi Winarno; Sagita Rochman; Muhammad Thoyibin
Voteteknika (Vocational Teknik Elektronika dan Informatika) Vol 11, No 4 (2023): Vol. 11, No 4, Desember 2023
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/voteteknika.v11i4.126124

Abstract

Penelitian ini bertujuan membuat sistem otomatisasi penyiraman pada perkebunan tanaman tomat menggunakan NodeMCU ESP8266 sebagai efisiensi pekerjaan dalam merawat tanaman. Metode yang digunakan dalam pembuatan alat ini melibatkan langkah-langkah seperti merancang blok diagram, menentukan spesifikasi komponen berdasarkan blok diagram, desain produk, wiring diagram, tampilan aplikasi Blynk, membuat diagram alir, dan menggabungkan perangkat. Sistem otomatisasi penyiraman tanaman ini terdiri dari beberapa komponen utama seperti NodeMCU ESP8266, sensor YL-69, sensor DHT11, sensor HC-SR04, modul relay, pompa air, buzzer, dan aplikasi blink. Penerapan sistem kontrol otomatisasi ini didapatkan penyiraman pada tanaman tomat akan otomatis aktif pada saat nilai kelembaban tanah >600 Bit serta akan otomatis tidak aktif pada saat nilai kelembaban tanah <350 Bit. Pengembunan pada tanaman tomat akan otomatis aktif pada saat nilai kelembaban udara <23% serta akan otomatis tidak aktif pada saat nilai kelembaban udara mencapai >75%. Ketinggian muka air akan termonitor dan akan memberikan informasi berupa alarm buzzer pada saat kondisi air pada bak penampungan akan habis.Kata kunci : IoT, NodeMCU ESP8266, Device Automation, Smart Plantation. This research aims to create an automated watering system for tomato plantations using NodeMCU ESP8266 as work efficiency in caring for plants. The method used in making this tool involves steps such as designing block diagrams, determining component specifications based on block diagrams, product design, wiring diagrams, displaying the Blynk application, creating flow diagrams, and combining devices. This plant watering automation system consists of several main components such as NodeMCU ESP8266, YL-69 sensor, DHT11 sensor, HC-SR04 sensor, relay module, water pump, buzzer, and blink application. Applying this automatic control system, it was found that watering on tomato plants would automatically be active when the soil moisture value was >600 bits and would automatically be inactive when the soil moisture value was <350 bits. Condensation on tomato plants will automatically activate when the air humidity value is <23% and will automatically inactivate when the air humidity value reaches >75%. The water level will be monitored and will provide information in the form of a buzzer alarm when the water in the storage tank runs out. Keywords: IoT, NodeMCU ESP8266, Device Automation, Smart Plantation.
PEMANFAATAN ENERGI HIBRIDA ANGIN DAN TENAGA SURYA DI DESA BATANG-BATANG DAYA SUMENEP Nurcahyanie, Yunia Dwie; Rochman, Sagita; Rukmana, Siti Nuurlaily; Prasetya, Dwi Arman; Rosariawari, Firra; Jariyah
Jurnal Abadimas Adi Buana Vol 7 No 02 (2024): Jurnal Abadimas Adi Buana
Publisher : LPPM Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/abadimas.v7.i02.a8239

Abstract

Pendistribusian air ke masyarakat warga Desa Batang-Batang Daya dengan memanfaatkan teknologi pompa hibrida, yaitu dengan menggunakan energi tenaga angin dan tenaga matahari. Pompa ini cocok untuk dimanfaatkan di area permukiman dengan potensi alam angin dan matahari. Pompa hibrida di desain untuk menutupi kekurangan energi dari masing-masing sumber, dimana jika hembusan angin tidak stabil dapat dipenuhi dengan energi matahari, ataupun sebaliknya. Sistem hibrid turbin angin dan solar sel mampu menghidupkan pompa air, sehingga pompa bisa mengalirkan air dari sumur ke tandon air. Pengolahan listrik tenaga surya memerlukan sistem otomatis dengan memutus sirkulasi sistem pengisian baterai jika sudah penuh, hal ini bertujuan untuk menghindari kerusakan pada baterai. Selanjutnya disambungkan dengan pompa, sensor dan modem internet agar dapat dimanfaatkan dengan koneksi IoT. Dengan koneksi IoT ini dapat dilakukan monitor dengan penggunaan smartphone untuk data indikator sensor debit, kelembaman tanah dan kecepatan angin. Berdasarkan hasil di lapangan bahwa terjadi peningkatan jumlah kebutuhan air bersih sebesar 50% dengan penggunaan sumur bor dan pompa hibrida. Hal ini tentu produktivitas kinerja petani dan peternak sapi di Desa Batang Batang Daya meningkat sebesar 70%
Implementation Smart Automatic Transfer Switch Multi-Input Multi-Output (MIMO) On DC House Wildan Surya Wijaya; Sagita Rochman; Adi Winarno; Mohamad Ilham; Aditya Ilham
Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 10 No 1 (2025): MARET
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/je-unisla.v10i1.1384

Abstract

In the development of technology, the specialization in New and Renewable Energy (NRE) is increasing, this is supported by the infrastructure of using NRE as a need for transportation of electric cars, electric bicycles, electric vehicle charging stations, home electricity needs, and the fulfillment of industrial needs. The electrical basis of the system is DC electricity where it is more efficient because there is no need to convert to AC electricity. In this study, it supports the transition and full use of DC electrical energy with an ATS system with various sources and equipped with a variable output of DC voltage used. The test results showed that the solar panels performed optimally at a voltage of 13.4 V and a current of 0.8 A, while the wind turbine had a fluctuating performance with a voltage between 7.2 V to 14.2 V and a current of 0.21 A to 0.5 A. Picohydro had a stable voltage in the range of 11.4 V to 13.2 V, but the current was low due to limited water flow. PSUs, as a backup power source, show stable performance with voltages between 14.3 V to 14.5 V and currents of 1.05 A to 1.3 A. MIMO ATS (Automatic Transfer Switch) systems are proven to be able to prioritize resource priorities to maintain power stability.
Implementasi Energi Listrik Tenaga Surya Pengawetan Makanan Untuk Peningkatan Produktivitas Umkm Amanah Surabaya Nurcahyanie, Yunia Dwie; Utomo, Yitno; Rohman, Sagita
JDISTIRA - Jurnal Pengabdian Inovasi dan Teknologi Kepada Masyarakat Vol. 4 No. 1 (2024)
Publisher : Yayasan Rahmatan Fidunya Wal Akhirah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58794/jdt.v4i1.1007

Abstract

Perekonomian UMKM di Desa Dukuh Menanggal merupakan salah satu penyangga perekonomian di Kecamatan Gayungan Surabaya. Salah satunya kelompok UMKM Amanah dengan produk unggulan makanan dan minuman dingin. Upaya peningkatan kualitas dengan tersedianya teknologi pendingin dengan tenaga listrik surya sistem hibrid. Penerapan teknologi pendingin hybrid tenaga surya, untuk meningkatkan produtivitas UMKM Amanah. Penerapan teknologi ini termasuk SOP instalasi, penggunaan, maintanance, perbaikan dan pengembangan teknologi agar produk tetap awet dan berumur panjang sesuai kaidah Design For Longevity. Metode pelaksanaan kegiatan  sosialisasi, pelatihan, penerapan teknologi, pendampingan dan evaluasi, dan keberlanjutan Program. Target yang dicapai dari pengabdian adalah peningkatan pemahaman mengenai aspek produksi dan aspek manajemen, peningkatan pemahaman mengenai sistem pendingin tenaga surya hibrida, Keberlanjutan Program PKM dan selalu digunakan oleh UMKM Amanah. Kontribusi Mitra terhadap Pelaksanaan Program PKM di UMKM Amanah ini adalah berperan sebagai peserta sosialisasi dan aktif berperan dalam kegiatan diskusi / tanya jawab, terlibat secara keseluruhan dalam program PKM meliputi perumusan, permasalahan, perencanaan program, penjadwalan kegiatan, pelaksanaan program hingga tahap evaluasi kegiatan. Mitra bersedia memberikan lokasi pelatihan, instalasi, gotong royong instalasi sistem hibrida, membantu memasang instalasi bersama-sama tim, bersedia menjadi pengelola dan operasional teknologi setelah program pengabdian selesai. Aparat desa mendampingi tim dalam pelaksanaan kegiatan dan memberikan bantuan jika ada persolan selama pelaksanaan kegiatan. Keuntungannya diantara lain adalah jumlah pangan yang dikonsumsi akan lebih awet, relatif lebih murah, risiko kegagalan yang diterima lebih kecil, menghemat energi dan mempersingkat waktu siklus produksi secara menyeluruh.
Design and Build a Mini Aquaponic Smart System for Subtropical Plants Based on the Internet of Things (IOT) Hidayat, Arief; Rochman, Sagita
BEST Vol 6 No 1 (2024): BEST
Publisher : Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol6.no1.8828

Abstract

As a country with a tropical climate, Indonesia stands out as a land rich in various types of animals and plants. The diversity of climates and environments provides fertile habitats, enabling the survival of various species that adorn Indonesia's natural beauty. To fulfill the desires of subtropical plant lovers whose hobby is agriculture, researchers have the idea of creating a research automatic planting system that can be used to grow subtropical plants in urban areas. The ESP32 acts as a monitoring device that produces vital information regarding environmental conditions, such as soil moisture, water acidity levels, and feed supplies in a system. Through this monitoring, research can collect relevant data to analyze conditions and optimize these factors. The data obtained will be processed and analyzed through daily development comparisons. The existence of intelligent systems, such as monitoring water pH and humidity, providing fish food, and regulating the water content in ponds and hydroponic growing media, can make it easier for those who want to develop farming and fish farming hobbies in urban areas where land is limited and busy with activity.
Cybersecurity Measures For Election Information Systems : Sistem Rekapitulasi Suara Pemilu 2024 (siRekap) Dwi Hastuti; Sagita Rochman; Rasyida Shabihah Zukro Aini
BEST Vol 6 No 1 (2024): BEST
Publisher : Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol6.no1.9182

Abstract

Seluruh data pemilu di Indonesia diolah dan disimpan oleh Komisi Pemilihan Umum Republik Indonesia-KPU dengan menggunakan Sistem Informasi Rekapitulasi Pemilu (SiRekap). Sistem SiRekap mematuhi undang-undang terkait, dan semua datanya ditangani dan disimpan di pusat data Indonesia. Pemilu rentan terhadap berbagai macam ancaman teknologi, mulai dari masalah keamanan siber tradisional, seperti peretasan dan pelanggaran data, hingga bentuk manipulasi yang lebih canggih, seperti deepfake dan disinformasi yang dihasilkan oleh AI. Pelaku ancaman dapat mengeksploitasi kerentanan dalam infrastruktur pemilu, dengan menargetkan sistem pemungutan suara elektronik dan basis data pemilih. Langkah-langkah pencegahan keamanan siber sangat penting untuk melindungi pemilu dari serangan siber yang selalu berubah, seperti: tanggung jawab bersama atas keamanan siber, menggunakan keamanan siber untuk mendapatkan keunggulan, kebutuhan hukum dan peraturan akan keamanan siber, praktik terbaik untuk keamanan siber, contoh- contoh keamanan siber di dunia nyata, cita-cita pilihan bagi perusahaan dan institusi. Pemerintah mempunyai peran penting dalam menjamin keamanan siber. Peningkatan keamanan siber akan sangat bermanfaat dalam mencegah kebocoran dan peretasan. Dengan harga yang wajar, sistem pemilu itu sendiri dapat diperkuat secara signifikan dalam hal keamanan.  
RANCANG BANGUN ALAT MONITORING DAYA DAN PEMUTUS ALIRAN LISTRIK BAGI PELANGGAN PLN BERBASIS IoT Sagita Rochman; Afif Nuril Musthofa; Muchammad Rizky Firmansyah
BEST Vol 6 No 2 (2024): BEST (Buana Electrical Science Technology): Journal of Applied Electrical, Scienc
Publisher : Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol6.no2.9442

Abstract

Along with the modern Indonesian society's need for electricity consumption, the level of electricity consumption continues to increase. Electricity consumption among postpaid PLN customers with single-phase connections is often poorly regulated due to inadequate monitoring of power usage and frequent payment delays between the 1st and 20th of each month. This study involved the development of a monitoring device designed to track power usage for single-phase PLN customers. Additionally, an electricity circuit breaker was created that can be controlled remotely via the officer's smartphone. This monitoring system uses PZEM-0004T as the sensor. The voltage, current, power and energy data will be read by the sensor and then sent by the ESP8266 to the Internet of Things (IoT) based Blynk Website. This breaker tool uses a relay as an electrical circuit breaker on the customer side. With this tool, it is possible to reduce illegal use of PLN electricity and reduce the number of arrears in customer electricity bill payments to PLN.
Artificial Intelligence System for Face Detection to Identify Passenger Identity at the Airport Solikin, Akhmad; rochman, sagita; Widiarto, Budi
BEST Vol 7 No 1 (2025): BEST
Publisher : Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol7.no1.10310

Abstract

Facial biometric technology is widely used in various fields such as bank security, border crossings, airport check-in, home surveillance, remote meetings in offices, prisons, and factories. This makes facial recognition an important field to study and develop. In countries like the United States and Germany, trials have begun for the implementation of Face Recognition technology in airport areas. This technology is used for airport check-in systems to address the issue of long queues, especially during holiday seasons, which is a common occurrence in airports worldwide. Although online check-in methods already exist, they still do not resolve this issue. Unfortunately, this technology has not yet been implemented or discussed for application in Indonesian airports. Therefore, the researchers intend to conduct a study on this technology to ensure that Indonesia does not fall behind other countries in facial detection technology. Based on the test results of the developed system, it can be concluded that the facial detection system is quite effective in identifying faces, but there are some limitations, such as lighting and facial accessories. The system works optimally at light intensities ranging from 806 lumens to 161 lumens, and if the person to be detected is wearing a mask or sunglasses, the system will not be able to recognize the face.
Filling Machine Panel Retrofit into Arduino Nano-Based Digital System at CV Sarana Engineering Surya Wijaya, Wildan; Ilham, Aditya; Abdul Jumali, Muhamad; Rochman, Sagita; Solikin, Akhmad; Nafisah, Nihayatun
BEST Vol 7 No 2 (2025): BEST
Publisher : Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/z17w7r20

Abstract

The control panel on the filling machine is an important component in the industrial automation system that functions to regulate the work sensors, actuators, and time-based control devices. This research begins with the emergence of ideas or needs to develop a system or solve a problem, which is then followed by problem identification and literature study to strengthen the theoretical basis. This study aims to redesign the filling machine control panel using a modular approach based on the Arduino Nano microcontroller. By replacing analog components with digital ones such as relay channels, LCDs, and modular PCBs, a cost efficiency analysis was carried out between the old and new systems. Testing was carried out by evaluating the response time, stability, and actuator coordination of the control panel, as well as conducting an economic analysis that included cost reduction and Return on Investment (ROI) calculations. These indicators were compared between the new and old panels to assess improvements in both technical performance and economic efficiency. The results showed that the new panel improved response speed, stability, and actuator coordination, while achieving cost savings of up to 80% compared to the conventional panel.The Return on Investment (ROI) analysis indicated an ROI of 405%, which demonstrates a significant economic advantage as the initial investment can be recovered multiple times over. This result highlights that the redesigned system is not only technically superior but also cost-effective and flexible, making it highly suitable for small to medium-scale industries. This system is also more modular, easy to program, and supports digital interface integration, making it a feasible and sustainable automation solution
Co-Authors Achmad Alfianto Adhi Yuniarto Adi Winarno Aditya Ilham Afif Nuril Musthofa Aini, Rasyida Shabihah Zukro Akbar Sujiwa Akhmad Solikin Alfianto, Achmad Andy Hermawan Atmiasri Bagus Ilham Yunianto Billah, Mussafa Budi Prijo Sembodo Budi Prijo Sembodo Budi Prijo Sembodo Prijo Sembodo Danu Krama Dwi Arman Prasetya DWI HASTUTI Edi Nasrulloh Ilham, Aditya Indah Nurhayati Indri Suryawati Indri Suryawati Jariyah Jodhy Satria Ramadhan Jumali, Muhamad Abdul Krishna Wijayakusuma Luthfi Hidayat M. Nushron Ali Mukhtar Mochamad Taufiq Irvan Efendy Mohamad Ilham Mohamad Ilham Muchammad Rizky Firmansyah Muhammad Thoyibin Mukodah, Roib Nafisah, Nihayatun Rivaldo Josua Jetrin Rolos Roib Mukodah Rosariawari, Firra sembodo, budi prijo Sembodo, Budi Prijo Sembodo Prijo Siti Nuurlaily Rukmana, Siti Nuurlaily surya Wijaya, WILDAN Taufiq Irvan Efendy, Mochamad Titik Koesdijati Widiarto, budi Wijayanti, Avissa Auryn Wildan Surya Wijaya Yitno Utomo Yunia Dwie Nurchayanie Yunianto, Bagus Ilham