Smart Office Implementation System for Electrical Energy Consumption Efficiency Using IoT-Based Fuzzy Algorithm
Keywords:
Smart Office, Internet of Things (IoT), Fuzzy Algorithm, Electrical Energy Efficiency, Real-time Monitoring
https://doi.org/10.56134/jst.v4i1.110
Abstract
Increased electricity consumption in office environments often results in waste and inefficient costs. This study aims to develop an Internet of Things (IoT)-based Smart Office system using a fuzzy algorithm to improve electricity efficiency. The method used is the Research and Development (R&D) approach with the Continuous Improvement Spiral model. This system is designed by utilizing a DHT11 sensor for temperature and an LDR for light intensity, which is connected to an Arduino Nano as the main data processor. Data is processed using a fuzzy algorithm to control electronic devices, such as lights and fans, and monitored through the Blynk application. The results showed that the system was able to reduce electricity consumption from 63.57 kWh to 41.32 kWh, with significant savings in monthly electricity costs. The average sensor accuracy reached 99.40% for DHT11 and 96.36% for LDR. This system makes a positive contribution to energy efficiency and is a sustainable solution for office environments.
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References
Adi, A. C. (2024). Konsumsi Listrik Masyarakat Meningkat, Tahun 2023 Capai 1.285 kWh/Kapita. Www.Esdm.Go.Id.
Adiputra, I. G. A. B. Y., Hartati, R. S., & Ariastina, W. G. (2018). Estimasi Emisi Gas Rumah Kaca(GRK) Terhadap Konsumsi Energi di Provinsi Bali. Majalah Ilmiah Teknologi Elektro.
Adiya, A. Z. D. N., Anggraeni, D. L., & Albana, I. (2024). Analisa Perbandingan Penggunaan Metodologi Pengembangan Perangkat Lunak: Waterfall, Prototype, Iterative, Spiral, Rapid Application Development (RAD). Merkurius: Jurnal Riset Sistem Informasi Dan Teknik Informatika, 2(4), 122–134. https://doi.org/https://doi.org/10.61132/merkurius.v2i4.148
Adriman, R., Asfianda, M., Afdhal, A., & Away, Y. (2018). Sistem Embedded Cerdas Menggunakan Logika Fuzzy Untuk Efisiensi Konsumsi Energi Listrik. Jurnal Ilmiah Teknik Elektro Komputer Dan Informatika.
Ain, Q., Iqbal, S., Khan, S. A., Malik, A. W., Ahmad, I., & Javaid, N. (2018). IoT operating system based fuzzy inference system for home energy management system in smart buildings. Sensors, 18(9), 2802. https://doi.org/https://doi.org/10.3390/s18092802
Al-Shetwi, A. Q. (2022). Sustainable development of renewable energy integrated power sector: Trends, environmental impacts, and recent challenges. Science of The Total Environment, 822, 153645. https://doi.org/https://doi.org/10.1016/j.scitotenv.2022.153645
Alfafa, M. F., & Bilfaqih, Y. (2020). Desain dan Implementasi Smart Home Konsumsi Daya Rendah Menggunakan Algoritma Optimisasi Cuckoo-Earthworm. Jurnal Teknik ITS, 9(1), A73--A80. https://doi.org/https://doi.org/10.12962/j23373539.v9i1.50459
Andriyani, W., Sacipto, R., Susanto, D., Vidiati, C., Kurniawan, R., Nugrahani, R. A. G., & others. (2023). Technology, Law And Society. Tohar Media.
Basyiran, T. B. (2014). Konsumsi Energi Listrik, Pertumbuhan Ekonomi dan Penduduk Terhadap Emisi Gas Rumah Kaca Pembangkit Listrik di Indonesia. Geography.
BPK. (2021). Permen ESDM No. 13 Tahun 2021. Peraturan.Bpk.Go.Id.
Brianorman, Y., Ridwanda, H., & Triyanto, D. N. (2014). Sistem Kendali Alat Listrik Berbasis Waktu dengan ATEMEGA8535.
Dincer, I. (1999). Environmental impacts of energy. Energy Policy, 27(14), 845–854. https://doi.org/https://doi.org/10.1016/S0301-4215(99)00068-3
Erdin, U. (2021). Rancang Bangun Sistem Kendali Dan Monitoring Peralatan Listrik Dalam Skala Rumah Tangga Berbasis Web. Jurnal Teknologi Elektro.
Erwin, E., Datya, A. I., Nurohim, N., Sepriano, S., Waryono, W., Adhicandra, I., Budihartono, E., & Purnawati, N. W. (2023). Pengantar & Penerapan Internet Of Things: Konsep Dasar & Penerapan IoT di berbagai Sektor. PT. Sonpedia Publishing Indonesia.
Farghali, M., Osman, A. I., Chen, Z., Abdelhaleem, A., Ihara, I., Mohamed, I. M. A., Yap, P.-S., & Rooney, D. W. (2023). Social, environmental, and economic consequences of integrating renewable energies in the electricity sector: a review. Environmental Chemistry Letters, 21(3), 1381–1418. https://doi.org/https://doi.org/10.1007/s10311-023-01587-1
Geograf. (2023). Manfaat Energi Listrik Dalam Kehidupan Sehari Hari - Geograf. Geograf.Id.
Goudarzi, S., Anisi, M. H., Soleymani, S. A., Ayob, M., & Zeadally, S. (2021). An IoT-based prediction technique for efficient energy consumption in buildings. IEEE Transactions on Green Communications and Networking, 5(4), 2076–2088. https://doi.org/https://doi.org/10.1109/TGCN.2021.3091388
Hartechsby. (2024). Energi Listrik dan Daya Listrik: Pentingnya Dalam Kehidupan. Hartechsby.Co.Id.
Haryati, S. P. (2013). Research and Development (R&D) Sebagai Salah Satu Penelitian Dalam Bidang Pendidikan.
Hidayat, N., Syamsuddin, Pratiwi, N. A., Rizkiyah, N. D., Nawasiah, N., Roudlotul, B., & Silitonga, M. P. R. (2024). Manajemen Operasi dan Produksi. Cendikia Mulia Mandiri.
Hidayatullah, N. A., & Juliando, D. E. (2017). Desain dan Aplikasi Internet of Thing (IoT) untuk Smart Grid Power Sistem. Volt: Jurnal Ilmiah Pendidikan Teknik Elektro, 2, 35–44.
Kartika, S. A. (2018). Analisis Konsumsi Energi dan Program Konservasi Energi (Studi Kasus: Gedung Perkantoran dan Kompleks Perumahan Ti). Sebatik.
Kassa, N. N. (2023). Konsumsi Listrik di Sulselrabar Tumbuh 16,53 Persen. Sulawesi.Bisnis.Com.
Khakim, M. L., Sukoco, B., & Widihastuti, I. (2020). Analisa Konsumsi Energi Listrik dan Peluang Penghemtan Pada AC Central Chiller Di Gedung Telkom Semarang.
Lesmana, S. P., Merah, A. P. S. B., Hermawati, D., & Puspitasari, N. (2024). Dampak Implementasi IoT pada Sistem Smart Home untuk Efisiensi Energi dan Keamanan di Kota Berkembang. Prosiding Seminar Nasional Amikom Surakarta, 2, 1265–1278.
Maydiantoro, A. (2021). Model-model penelitian pengembangan (research and development). Jurnal Pengembangan Profesi Pendidik Indonesia (JPPPI).
Muhammad, A., Prayitno, B., Putra, R. I., Putra, E., & Palupiningsih, P. (2021). Rancang Bangun Sistem Monitoring dan Controlling Penggunaan Daya Peralatan Listrik Rumah Tangga Menggunakan IoT. PETIR.
Nancy, Y. (2023). Apa Manfaat Energi Listrik dalam Kehidupan Sehari-Hari? Tirto.Id.
Nandar, C. S. A. (2024). Teknologi Jaringan Listrik Cerdas untuk Meningkatkan Stabilitas Sistem Tenaga Listrik dalam Mendukung Transisi Energi Listrik di Indonesia. Penerbit.Brin.Go.Id. https://doi.org/https://doi.org/10.55981/brin.1208
Nguyen, T. A., & Aiello, M. (2013). Energy intelligent buildings based on user activity: A survey. Energy and Buildings, 56, 244–257. https://doi.org/https://doi.org/10.1016/j.enbuild.2012.09.005
Omer, A. M. (2009). Energy use and environmental impacts: A general review. Journal of Renewable and Sustainable Energy, 1(5). https://doi.org/https://doi.org/10.1063/1.3220701
Pramudhita, A. N., & Mawangi, P. A. N. (2021). Smart Grid Untuk Efisiensi Konsumsi Listrik Pada Proses Produksi Di Industri Manufaktur. MATICS: Jurnal Ilmu Komputer Dan Teknologi Informasi (Journal of Computer Science and Information Technology), 13(1), 7–12. https://doi.org/https://doi.org/10.18860/mat.v13i1.11566
Pratama, A. S., & Wahyudin, W. (2023). Pemanfaatan Teknologi Informasi dan Komunikasi (TIK) Oleh Rumah Tangga Untuk Kehidupan Sehari-hari. Journal of Information Technology and Society.
Putra, N. (2012). Research development: penelitian dan pengembangan suatu pengantar.
Rahayu, N. N. (2016). Audit Energi Listrik pada PT.X.
Safitri, V. A., Sari, L., & Gamayuni, R. R. (2020). Research and Development (R&D), environmental investments, to eco-efficiency, and firm value. The Indonesian Journal of Accounting Research, 22(3). https://doi.org/https://doi.org/10.33312/ijar.446
Saputra, A. M. A., Kharisma, L. P. I., Rizal, A. A., Burhan, M. I., & Purnawati, N. W. (2023). Teknologi Informasi: Peranan TI dalam berbagai bidang. PT. Sonpedia Publishing Indonesia.
Saputra, D. I., Fajrin, I. M., & Zainal, Y. B. (2019). Perancangan sistem pemantau dan pengendali alat rumah tangga menggunakan NodeMCU. J. Tek. Rekayasa, 4(1), 9–16. https://doi.org/https://doi.org/10.31544/jtera.v4.i1.2019.9-16
Satria, D. (2023). Pengantar Teknik Komputer: Konsep dan Prinsip Dasar. PT. Sonpedia Publishing Indonesia.
Seneru, W., Usman Tahir, S. T., Diwyarthi, N. D. M. S., Safrizal, S., Kom, M., Fitria, S., Kom, S., Kom, M., Saputro, A. K., Heppi Syofya, S. E., & others. (2024). Digital Society 4.0 Menghadapi Revolusi Industri Keempat. Cendikia Mulia Mandiri.
Shah, A. S., Nasir, H., Fayaz, M., Lajis, A., & Shah, A. (2019). A review on energy consumption optimization techniques in IoT based smart building environments. Information, 10(3), 108. https://doi.org/https://doi.org/10.3390/info10030108
Strielkowski, W., Civ’in, L., Tarkhanova, E., Tvaronavičien.e, M., & Petrenko, Y. (2021). Renewable energy in the sustainable development of electrical power sector: A review. Energies, 14(24), 8240. https://doi.org/https://doi.org/10.3390/en14248240
Sugiyono. (2015). Metode Penelitian Tindakan (Action Research).
Sukawi, S. (2011). Penerapan Konsep Sadar Energi dalam Perancangan Arsitektur yang Berkelanjutan.
Utomo, S. W., Hidajat, R. A., Siregar, M. A., & others. (2021). Ekologi Lingkungan Hidup dan Circular Economy. Universitas Indonesia Publishing.
Waruwu, M. (2024). Metode Penelitian dan Pengembangan (R&D): Konsep, Jenis, Tahapan dan Kelebihan. Jurnal Ilmiah Profesi Pendidikan.
Wiguna, K., & Mahdiana, D. (2023). Analysis of Information Systems Development Methods: A Literature Review. Jurnal Inovtek Polbeng Seri Informatika, 8(2), 472–483. https://doi.org/https://doi.org/10.35314/isi.v8i2.3753
Yola, O. A. (2020). Studi Perilaku Konsumsi Energi Listrik Di Universitas Andalas.
Zen, L. E., & Iswavigra, D. U. (2023). Critical Review: Analogi RAD, OOP dan EUD Method dalam Proses Development Sistem Informasi. Jurnal Informasi Dan Teknologi, 184–190. https://doi.org/https://doi.org/10.37034/jidt.v5i1.286
Zidniryi. (2022). Pengertian Metode Spiral, Tahapan, Kelebihan dan Kekurangan. Www.Konsepkoding.Com.
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