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INDONESIA
Jurnal Teliska
Published by Politeknik Negeri Sriwijaya
ISSN : 20850786     EISSN : 26542765     DOI : -
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Industrial & Manufacturing Engineering Mechanical Engineering
JURNAL TELISKA adalah Jurnal dengan akses terbuka, jurnal peer-review yang diterbitkan oleh Jurusan Teknik Elektro, Politeknik Negeri Sriwijaya, Indonesia. Teliska diterbitkan dengan frekuensi 3 (tiga) kali dalam setahun dengan jumlah volume yang bervariasi. Artikel dapat berupa hasil penelitian, kajian ilmiah, dan analisis serta pemecahan masalah yang relevan dengan bidang teknik elektro, diantaranya Teknik Telekomunikasi/Komunikasi Nirkabel/Keamanan Jaringan, Teknik Listrik/Sistem Tenaga Listrik dan Teknik Elektronika/Sistem Isyarat Elektronis/Sistem Kendali, Sistem Informasi/Internet of Things/Kecerdasan Buatan. Semua artikel yang dikirimkan harus melaporkan hasil penelitian asli, yang sebelumnya tidak dipublikasikan, eksperimental atau teoritis yang tidak dipublikasikan dan sedang dipertimbangkan untuk dipublikasikan di tempat lain. Publikasi naskah yang diserahkan tunduk pada peer review. Baik aspek umum dan teknis dari makalah yang dikirimkan ditinjau sebelum dipublikasikan. Naskah harus mengikuti gaya jurnal dan dapat ditinjau dan diedit. Sistem pengajuan dan penerbitan online menggunakan Open Journal System (OJS). Pengajuan harus dilakukan secara online melalui situs pengiriman Website TELISKA dengan melakukan Registrasi terlebih dahulu setelah itu Login . Makalah yang diterima akan tersedia secara online.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 88 Documents
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MONITORING ARUS DAN TEGANGAN PEMBANGKIT LISTRIK TENAGA SURYA BERBASIS INTERNET OF THING DI ASONE HIDROPONIK Zidane, Imam Rafi; Abdurrahman; Alfarizal, Niksen
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052163

Abstract

Hydroponics is a farm method that does not use soil as the growning medium. But instead utilizes water mixed with nutrients required by the plants. This method is considered more efficient in limited city land and allows for full control over nutrient provided to the plants. The utilization of Solar Power Plant is the best solution to solve the problem of PLN power outage, particulary in supporting irrigation and nutrient supply for hydroponic plant cultivation. This research is focus on developing a monitoring system for the current and voltage generated by the Solar Power Plant to ensure a stable and efficient power supply. The system is designed based on the Internet of Thing (IoT) enabling Asone Hydroponic cultivators to perform real time monitoring via Blynk app on both Android and PC. The objective of this research is to design and create a Solar Power Plant monitoring system that can measure and monitor voltage and current variables and to implement it in the context of hydroponics plant cultivation. Using the ESP32 as a microcontroller, this research also use the PZEM-017 sensor to measure DC voltage and current, and the PZEM-004t sensor to measure AC voltage and current. It is hoped that this research will provide tangible benefits in improving the efficiency and sustainabillity of hydroponic plant cultivation in Indonesia, as well as offer a reliable renewable energy solutions.
IMPLEMENTASI ALAT PENGUSIR BURUNG MENGGUNAKAN METODE SUARA OTOMATIS DAN SOLAR CELL (STUDI KASUS: PERSAWAHAN DARURRUHAMA KOTA PALEMBANG) Prayitno, Rudi
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052381

Abstract

Efforts to control pests in rice agricultural land continue to be implemented to improve crop yields through chemical and mechanical methods. One of the main pests that disrupt farmers is birds, such as sparrows and finches, which consume rice seeds and cause significant losses, especially when the rice begins to fill. Rice production in South Sumatra reaches 55,532 tons per year, with potential yield losses due to bird attacks reaching 30%. Various repellent methods, such as setting traps and using protective nets, have been applied, but farmers still rely on traditional methods that are less effective. This research aims to design a solar cell-based bird repellent device, named Audio Sweep, using physical methods to utilize sound waves at specific frequencies. This method is expected to be more environmentally friendly and effective. The research was conducted using a Research and Development (R&D) approach up to the prototyping and initial testing stages in the Darurruhama rice field area in Palembang. The results of the trials show that this device is capable of generating sound waves at frequencies effective in repelling birds, while also being equipped with a monitoring system based on the ESP 32-CAM microcontroller. This research not only produces an innovative product but also provides practical solutions to reduce yield losses due to bird pest attacks, supports sustainable agriculture, and contributes to the vision of Indonesia Emas 2024.
PERANCANGAN SISTEM ALAT PENDETEKSI BANJIR MENGGUNAKAN SENSOR ULTRASONIK JSN-SR04T BERBASIS INTERNET OF THINGS DI TANAH ABANG KABUPATEN PENUKAL ABAB LEMATANG ILIR Admanugraha, Aditya; Evelina; Damsi, Faisal
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052567

Abstract

Peningkatan debit air sungai yang menyebabkan banjir adalah masalah signifikan yang dihadapi oleh warga Tanah Abang, Kabupaten Penukal Abab Lematang Ilir. Untuk meminimalisir kerugian akibat banjir, diperlukan sistem peringatan dini yang efektif. Penelitian ini menguraikan perancangan dan implementasi sistem deteksi banjir berbasis Internet of Things (IoT) menggunakan sensor ultrasonik JSN-SR04T. Sistem ini memungkinkan pemantauan ketinggian air secara real-time dan memberikan peringatan melalui email dan notifikasi aplikasi. Hasil pengujian menunjukkan bahwa alat mampu mendeteksi ketinggian air dengan akurasi tinggi dalam rentang 25 cm hingga 450 cm. Sistem berhasil memberikan notifikasi peringatan dini melalui aplikasi Blynk sesuai dengan tiga tingkat siaga: Siaga 1 (120-100 cm), Siaga 2 (100-80 cm), dan Siaga 3 (<80 cm). Dengan demikian, alat ini efektif dalam memberikan informasi dan meningkatkan kesiapsiagaan masyarakat terhadap potensi banjir sehingga warga dapat mengambil tindakan preventif lebih awal, seperti evakuasi atau perlindungan harta benda. Selain itu, sistem ini memfasilitasi pemerintah dalam pengawasan dan pengumpulan data lingkungan untuk analisis lebih lanjut, perencanaan kota, dan studi perubahan iklim. Metode yang digunakan dalam laporan ini meliputi studi literatur, wawancara, dan observasi untuk mengembangkan sistem deteksi yang efisien dan dapat diandalkan.
MONITORING ARUS DAN TEGANGAN PENERANGAN LAMPU JALAN BERBASIS INTERNET OF THINGS Hidayah, Arini Alfa; Amperawan
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052833

Abstract

The purpose of this research is to develop an Internet of Things (IoT) based system capable of monitoring the current and voltage of street lighting. This system utilizes the INA219 sensor to measure the voltage and current generated by the solar panel, which is then sent in real-time through the NodeMCU module using WiFi to the Blynk application. Test results show that the INA219 sensor has good accuracy, with an average error of 0.73% for voltage and 0.75% for current. This monitoring system enables effective remote monitoring of solar cell performance, with data displayed on the Blynk app in real-time and accurately.
SISTEM MONITORING DAYA PADA PENGOPERASIAN MOTOR LISTRIK BERBASIS POWER METER Yahya, Sudirman; Suyadi, Andri; Febriani, Alda
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052295

Abstract

In the industrial sector, 3-phase induction electric motors are widely used as drivers for conveyors, blowers, elevators, and others. Using an induction motor has many advantages, including relatively cheap prices, easy maintenance, and simple construction. When using a 3-phase induction electric motor, electrical power is an important parameter that needs to be considered. Poor power quality can cause a variety of problems, including reduced efficiency, equipment damage and disruption to the electrical system. Therefore, power monitoring is important to identify possible problems and take appropriate corrective or preventive action. Power monitoring can also provide a better understanding of how power quality can affect the operating efficiency and reliability of 3-phase induction electric motors. This can also be valuable knowledge on understanding and optimizing the performance of 3-phase induction electricity in industrial electrical installation practices by using a Power Meter to monitor the power consumed by the electric motor in real time.
SISTEM OPTIMALISASI ENERGI LISTRIK DENGAN INTERNET OF THINGS ASSISTED ARTIFICIAL INTELLEGANCE Pratama, M Ghalu; Alfarizal, Niksen
JURNAL TELISKA Vol 18 No II (2025): TELISKA Juli 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15856269

Abstract

In the current digital era, the increasing awareness of energy efficiency, coupled with high operational costs and environmental impacts, has become a primary concern. Internet of Things (IoT) and Artificial Intelligence (AI) technologies offer solutions to optimize electricity consumption through real-time data collection and advanced analytics. This study aims to explore the integration of IoT and AI in smart energy management systems to reduce costs and environmental impact. By employing machine learning algorithms, the research will predict electricity consumption and provide energy efficiency recommendations. It is anticipated that this system will enhance energy efficiency, lower operational costs, and contribute to environmental sustainability. This study is expected to make a significant contribution to the development of innovative solutions for electricity optimization based on IoT and AI.
PERANCANGAN SISTEM SMART GRID BERBASIS INTERNET OF THINGS UNTUK PENGELOLAAN LISTRIK YANG EFISIEN Saputra, Thio
JURNAL TELISKA Vol 18 No II (2025): TELISKA Juli 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15860176

Abstract

The use of energy in Indonesia is influenced by various factors, including history, economics, and geography, with a high dependence on fossil fuels despite declining oil reserves. The transition to clean energy sources, particularly solar energy through solar panels, has become a primary focus. Solar panels, which use semiconductor-based photovoltaic cells, serve to convert sunlight into electrical energy. The need for sustainable electricity drives the implementation of smart grid systems based on IoT technology, which enhances the efficiency and reliability of electricity distribution. This research explores the use of solar panels as an alternative power source by assessing the power output and efficiency of the system. The application of IoT allows for better automation and energy management. The research methods include needs analysis, system design, and the implementation of IoT technology for real-time monitoring. The results indicate that IoT-based smart grid systems can improve electricity management efficiently and sustainably.
MONITORING KUALITAS UDARA UNTUK MENGUKUR KONSENTRASI PARTIKEL UDARA BERBASIS INTERNET OF THINGS Setiawan, Dimas; Abdurrahman
JURNAL TELISKA Vol 18 No II (2025): TELISKA Juli 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15855170

Abstract

Increasing air pollution has become one of the most pressing environmental issues of the modern era, with significant impacts on human health and ecosystems. This research presents an Internet of Things (IoT)-based air quality monitoring system designed to measure concentrations of PM2.5 particles, carbon monoxide (CO), and nitrogen dioxide (NO2). This system uses sophisticated sensors connected via an IoT network to collect real-time air quality data from various locations. The data obtained is then sent to a cloud platform for analysis and visualization using a web-based application. This methodology enables continuous monitoring and widespread mapping of air quality with high accuracy. The results of the tests show that this system can provide accurate and timely information on air pollution levels, which can be used to increase public awareness, optimize environmental policies, and minimize health risks. It is hoped that this research can contribute to the development of more effective and responsive air monitoring technology in the future.
PEMANFAATAN INTERNET OF THINGS UNTUK OPTIMALISASI PROSES PENGUMPULAN SAMPAH PADA BANK SAMPAH DIGITAL Ganza; Husni, Nyayu Latifah
JURNAL TELISKA Vol 18 No II (2025): TELISKA Juli 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15860259

Abstract

Sampah adalah buangan yang dihasilkan dari suatu proses produksi baik domestik (rumah tangga) maupun industri. Konflik membuang sampah ini semakin memprihatinkan, sudah banyak cara serta upaya yang dilakukan mulai dari menyediakan daerah sampah pada daerah umum dan menyediakan indera angkut sampah pada setiap daerah. Jumlah sampah di Kota Pekanbaru mencapai 745.20 ton setiap harinya. Bank sampah adalah sebuah gerakan masyarakat atau lembaga yang mengangkat potensi ekonomi kerakyatan dengan cara menabung sampah yang nantinya bisa ditukarkan dengan uang atau barang tertentu. Sistem bank sampah yang ada pada saat ini sangatlah mirip dengan cara kerja bank konvensional pada umumnya, namun pada bank sampah bukanlah uang yang ditabung melainkan sampah. Tentunya sampah yang digunakan sebagai alat transaksi memiliki kriteria tertentu seperti jenis sampah yang digunakan untuk menabung. Pada penelitian ini, alat yang dirancan akan mendeteksi jenis sampah antara Anorganik atau Organik. Jika sampah yang terdeteksi merupakan sampah maka motor servo akan bergerak 30° ke arah tong sampah anorganik, sebaliknya jika sampah terdeteksi merupakan sampah organik maka motor servo akan bergerak 30° ke arah tong sampah organik dengan jarak alat paling akurat di jarak 20 cm.
PEMANTAUAN KEKERUHAN DAN NILAI TOTAL DISSOLVED SOLIDS KUALITAS AIR AKUARIUM MENGGUNAKAN METODE FUZZY LOGIC MAMDANI Nur Zahra Lutfia
JURNAL TELISKA Vol 18 No II (2025): TELISKA Juli 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15854966

Abstract

The quality of aquarium water is crucial for the health of fish and other organisms. Turbidity and Total Dissolved Solids (TDS) are two main factors affecting water quality. This study aims to develop an automatic system to control aquarium water quality using the Mamdani Fuzzy Logic method. This method was chosen for its ability to handle uncertain or incomplete data. We defined fuzzy membership functions for turbidity (clear, murky, very murky) and TDS (low, medium, high), and created rules to control the pump status (On/Off). Using the centroid defuzzification method, the system provides clear decisions for regulating the pump. The results show that this system is effective in controlling the aquarium pump based on turbidity and TDS, thus improving water quality and reducing sudden changes in these parameters. Tuliskan abstrak Anda dalam bahasa Inggris (Maksimal 200 kata, font Times New Roman ukuran 10, rata kiri kanan/Justify)

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