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All Journal Jurnal Inovasi Teknologi Pendidikan Jurnal Ilmiah Dinamika Rekayasa (DINAREK) Journal of Applied Information, Communication and Technology (JAICT) SCIENCE TECH: Jurnal Ilmiah Ilmu Pengetahuan dan Teknologi JURNAL MEDIA INFORMATIKA BUDIDARMA Bina Teknika Indonesian Physical Review Journal of Education and Teaching Learning Journal of Telecommunication, Electronics and Control Engineering (JTECE) Journal of Electronic and Electrical Power Application eProceedings of Engineering RENATA Jurnal Pengabdian Masyarakat Kita Semua El-Mujtama: Jurnal Pengabdian Masyarakat Jurnal SINTA: Sistem Informasi dan Teknologi Komputasi

Prasetyo Yuliantoro

Universitas Telkom

Author-ID : 3117939

Religion Agriculture, Biological Sciences & Forestry Humanities Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Materials Science & Nanotechnology Physics Social Sciences Other

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PERANCANGAN SISTEM MONITORING DAYA LISTRIK 1 FASA PADA RUMAH TANGGA BERBASIS INTERNET OF THINGS Pradana, Aprilianto Agung; Yuliantoro, Prasetyo; Indriyanto, Slamet
Jurnal SINTA: Sistem Informasi dan Teknologi Komputasi Vol. 1 No. 1 (2024): SINTA - JANUARI
Publisher : Berkah Tematik Mandiri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61124/sinta.v1i1.13

Indonesia setiap tahunnya mengalami peningkatan konsumsi daya listrik Sejalan dengan peningkatan jumlah penduduk dan perkembangan sektor ekonomi di negara ini. Penyebab yang menjadikan faktor meningkatnya konsumsi daya listrik adalah dari masyarakat itu sendiri yang boros akan listrik. maka dari itu dilakukan upaya penghematan listrik dimulai dari penggunaan listrik rumah hingga berskala besar seperti industri. cara lain agar dapat melakukan penghematan yaitu dengan merancang perangkat yang dapat memantau penghematan daya listrik. Berdasarkan permasalahan tersebut maka diperlukan alat untuk memantau (memonitoring) penggunaan pada salah satu komponen elektronik yang ada dirumah sehingga diketahui device elektronik mana yang paling besar mengonsumsi daya listrik sehingga mudah dilakukan penghematan. Membuat sistem monitoring daya listrik berbasis IoT diharapkan mampu mengatasi masalah diatas, dengan sensor daya listrik PZEM-004T yang berfungsi untuk memindai daya listrik & platform blynk sebagai aplikasi penampil hasil monitoring. parameter pengujian dalam penelitian ini yaitu akurasi sensor PZEM-004T dalam pengukuran tegangan dan arus. pengujian pengambilan data pompa air, kipas angin, magic com dengan sensor PZEM-004T. Device monitoring menggunakan WiFi sebagai jalur komunikasi secara online. Berdasarkan hasil pengujian bahwa sistem monitoring mampu memonitoring tegangan, arus, daya, dan beban dari masing-masing unit elektronik dan mengkonversi nilai rupiah per kWh, lalu mengirim data ke LCD dan platform Blynk. Pada pengujian akurasi tegangan dari sensor PZEM-004T didapat nilai rata-rata error percentage sebesar 0,34% dan power listrik sebesar 0,23%. Hasil monitoring dan perkiraaan biaya listrik dapat dilihat secara langsung pada aplikasi Blynk pada gadget android.

Peningkatan Kapasitas Digital PT Satria Tama Energi melalui Pelatihan Katalog Digital Berbasis Canva dan Heyzine Yuliantoro, Prasetyo; Praja, Muhammad Panji Kusuma; BR Ginting, Melinda
El-Mujtama: Jurnal Pengabdian Masyarakat Vol. 6 No. 1 (2026): El-Mujtama: Jurnal Pengabdian Masyarakat
Publisher : Intitut Agama Islam Nasional Laa Roiba Bogor

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This community service program aims to enhance the digital capacity of PT Satria Tama Energi, a renewable energy company specializing in solar power systems, through training on interactive digital catalog development using Canva and Heyzine. Despite producing various renewable energy products, the partner faced limitations in product documentation and promotion due to the absence of an official digital catalog. The program was implemented over three months using a hybrid approach, consisting of three on-site meetings (introduction, hands-on training, and evaluation) complemented by online monitoring and feedback. Eleven participants, consisting of company executives, employees, and interns, were involved to ensure managerial support and sustainability. The training covered digital design principles, content structuring, catalog layout development, and interactive publication. The main output of this program is an official interactive digital catalog that can be accessed online and used as a professional promotional medium. In addition, the program improved participants’ skills in independently updating and managing digital catalogs. This activity supports Sustainable Development Goals (SDGs), particularly SDG 8 on decent work and economic growth and SDG 9 on industry, innovation, and infrastructure. Overall, the program successfully strengthened the partner’s promotional capacity and digital competitiveness.

DESIGN AND CONSTRUCTION OF AN IOT-BASED SECURITY MONITORING AND EARLY DETECTION SYSTEM FOR PUBLIC STREET LIGHTING DAMAGE Utami, Tri; Permatasari, Indah; Kurnianto, Danny; Yuliantoro, Prasetyo
Journal of Electronic and Electrical Power Applications Vol. 5 No. 2 (2025): JEEPA Volume 5 Nomor 2
Publisher : Program Studi Teknik Elektro Universitas Peradaban

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Delays in detecting damage and potential theft of public street lighting remain a common problem in several areas due to reliance on manual reporting systems. Therefore, this study aimed to design and develop an Internet of Things (IoT)-based system for security monitoring and early detection of damage in public street lighting. The proposed system employed an ESP8266 microcontroller, a Light Dependent Resistor (LDR) sensor to detect lamp operating conditions (on/off), and an E18-D80NK infrared proximity sensor to detect object presence as an indication of theft. Monitoring data were transmitted in real time and displayed through the Blynk application as the user interface. The research method included hardware and software design, system implementation, and functional testing, including LDR sensor testing, infrared proximity sensor testing, and system delay evaluation. The experimental results showed that the system accurately detected lamp operating conditions during testing on a 22-watt street lamp and successfully detected objects with a 100% detection rate. Delay testing indicated that the system response time increased with object distance but remained within acceptable limits for monitoring applications. Overall, the developed system was effective in supporting monitoring, early damage detection, and improving the security of public street lighting.

Co-Authors Anisa Eka Fajriaty Astuti, Febru Puji Aswan Munang Bagaskara, Baruna Bilal, M Dadiek Pranindito Danny Kurnianto Deva Ourelia Ayuninda Dina Rahmawati Dinda Kusumawati Diovianto Putra Rakhmadani Eka Wahyudi Febru Puji Astuti Fikra Titan Syifa Hasriya Putri, Elvina Hidayatullah, Rizky Hidayaturrohman, Qisthi Alhazmi Indah Permatasari Indah Permatasari Indriyanto, Slamet Irmayatul Hikmah Kemuning Nenden Testy Melinda Br Ginting Muhammad Panji Kusuma Praja Muntaqo Alfin Amanaf Nurul Latifasari Pradana, Aprilianto Agung Qisthi Alhazmi Hidayaturrohman Reda Rizal Reza Edwin Sulistyaningtyas Savena Rinda Pamungkas Setyawan, Agung Cahyo Shinta Dinar Kumalasari Shinta Romadhona Sigit Pramono Sulistyaningtyas, Reza Edwin Tri Utami Utomo, Dovi Yudha Pratama, M Aldan Yulia Siska, Diah Zen, Nur Afifah

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