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All Journal BERDIKARI : Jurnal Inovasi dan Penerapan Ipteks Jurnal Nasional Pendidikan Teknik Informatika (JANAPATI) Jurnal Sistem Komputer & Kecerdasan Buatan
Tahazen, Tahazen
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Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Engineering

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Internet of Thing untuk Memantau Sistem Kelistrikkan Pembudidaya Ikan Hias Dwiyaniti, Murie; Riandini, Riandini; Silawardono, Silawardono; Tahazen, Tahazen; Saputra, Fauzan Aziz; Yosmaniar, Yosmaniar
Berdikari: Jurnal Inovasi dan Penerapan Ipteks Vol 11, No 2 (2023): August
Publisher : Universitas Muhammadiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18196/berdikari.v11i2.18371

Abstract

The Pondakan Alam Sari ornamental fish cultivator group has approximately 50 types of ornamental fish cultivated for domestic and foreign commodities. Market demand for ornamental fish tends to increase yearly, but the market wants stable prices. This price stability is a dilemma for ornamental fish cultivator groups. One of the determinants of the selling price of ornamental fish is operational costs, especially electricity costs. The increase in basic electricity tariffs causes operational costs to increase. Electricity is used to power the circulating water pump 24 hours non-stop daily. This circulating water pump is very important for producing oxygen in the water. If there is no oxygen in the water, ornamental fish will die. To reduce operational electricity costs, the community service team built a DC electricity system sourced from solar energy so that the circulating water pump source no longer uses PLN electricity. This community service program aims to reduce operational electricity costs by building a DC electricity system sourced from solar energy and an IoT-based monitoring process. The implementation method consists of two stages: (1) building physical capital through a solar energy electricity source and DC pump installation and (2) creating a DC electrical parameter monitoring system with the Blynk IoT platform. The evaluation technique was carried out by comparing planning with the progress of implementing activities. The results and implications of activities include the availability of DC electricity sources from renewable energy, namely solar cells with a power of 960 WP, installing 10 DC pumps, and an IoT-based DC electrical parameter monitoring system. Operational costs in managing an ornamental fish business can be reduced by 46% from before using renewable and IoT-based energy. This result will certainly increase the profit margin of ornamental fish farming.
Implementasi BTS IoT Dengan ESP now pada Lahan Pertanian Terbuka Tossin Alamsyah , A; Syarif , Syafrizal; Saepuddin, Endang; Tahazen, Tahazen
Jurnal SISKOM-KB (Sistem Komputer dan Kecerdasan Buatan) Vol. 7 No. 2 (2024): Volume VII - Nomor 2 - February 2024
Publisher : Teknik Informatika, Sistem Informasi dan Teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47970/siskom-kb.v7i1.596

Abstract

implementasi BTS (base transceiver station) IoT (internet of Thing) pada pertanian diarahkan pada smart farming, paramater yang dimonitor dan dikontrol adalah iklimitasi (cuaca) dan irigasi otomasi seperti dan pemberian nutrisi. Tujuan dari smart farming adalah (1).Optimasi produk pertanian , (2) Penanggulangan hama ,(3) Penggunaan sumber daya secara efektif berbasis otomatisasi. (3) Otomasi Pemupukan. Penelitian ini adalah Kolaborasi Politeknik Negeri Jakata (PNJ) bermitra dengan Balai Besar Pelatihan Pertanian (BBPP) di Lembang. Permasalahannya adalah monitoring traffic data pada BTS-IoT (base transceiver station - internet of Thing) dengan menggunakn ESP8266 dan ESP Now. Metode Penelitian adalah eksperimental yaitu membangun Prototype IoT BTS pada lahan terbuka kemudian dibaca parameternya leh sistem , hasil pengukuran didokumentasikan untuk selanjutnya digunakan untuk menghidupkan perangkat lain, agar kondisi lingkunganya terjaga. Pada penelitian ini telah dibangun berupa prototipe BTS-IoT pada lahan 1 Hektar berupa statsiun cuaca yang membaca curah hujan, kecepatan angin, arah angin, suhu , kelembaban, dan iradiasi sinar matahari , dengan komponen utamanya adalah ESP8266, kemudian disandingkan dengan Master-Slave dan Slave – Master dari ESP now, sebagai fungsi untuk mengontrol kondisi lingkungan , terutama untuk menyalakan pompa air ketika cuaca panas. Hasil pengamatan pengukuran dapat disimpulkan Nilai dari parameter temperature , humidity rata-rata yaitu, 24,8 derajat celcius dengan humidity rata-rata 69,15 %RH, sedangkan untuk arah angin rata-rata bertipu dari Tenggara dengan kecepatan 4,75 m/s. kondisi ini termasuk dalam keadaan normal. Untuk pengamatan konsumsi daya dari alat ini dapa dikategorikan efisien atau rendah dengan konsumsi daya sebesar 777,25 milli watt, dengan tegangan (V) 3426 mV dan Curret (225, 5 mA).
Enhancing Renewable Energy Utilization in Remote Areas Through an Accessible IoT Monitoring Framework: A Case Study on Tidung Island Dwiyaniti, Murie; Isdawimah, Isdawimah; Nadhiroh, Nuha; Setiana, Hatib; Muchlishah; Monika, Dezetty; Wardhani, Rika Novita; Tahazen, Tahazen
Jurnal Nasional Pendidikan Teknik Informatika: JANAPATI Vol. 14 No. 2 (2025)
Publisher : Prodi Pendidikan Teknik Informatika Universitas Pendidikan Ganesha

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23887/janapati.v14i2.93685

Abstract

This research addresses the lack of an accurate and efficient monitoring system for renewable energy utilization in Tidung Island. Despite its high solar and wind energy potential, the absence of real-time environmental data hinders optimal energy management. Existing IoT-based monitoring systems are costly and complex, making them unsuitable for remote areas. This research integrates Blynk IoT and Google Sheets database for real-time, cost-effective, and easily accessible data storage. This system enables real-time data acquisition to support efficient energy management and environmental monitoring in remote areas. Testing results show that the Telkomsel 4G modem provides a more stable connection with lower latency and minimal packet loss. Temperature remains between 25–30°C, while humidity fluctuates up to 100% at night. Wind speed is classified as low to moderate (1.0–6.1 m/s), and CO₂ levels range from 400–600 PPM, remaining within safe limits. These findings suggest the need for improved energy storage, system resilience against environmental changes, and adaptive energy management strategies for optimal hybrid renewable energy utilization.
Co-Authors Endang Saepuddin Isdawimah Monika, Dezetty Muchlishah MURIE DWIYANITI1 Nadhiroh, Nuha Riandini, Riandini Rika Novita Wardhani Saputra, Fauzan Aziz Setiana, Hatib Silawardono, Silawardono Syarif , Syafrizal Tossin Alamsyah , A Yosmaniar, Yosmaniar