A Literatur Review Green Energy Pada Pemancar Sistem Komunikasi Seluler
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https://doi.org/10.24843/MITE.2023.v22i02.P07
Abstrak
Banyaknya pengguna dan frekuensi penggunaan sistem telekomunikasi meningkat pesat dan menyebabkan kebutuhan yang lebih besar pada penggunaan energi. Berdasarkan banyak penelitian yang dilakukan oleh berbagai operator jaringan, bahwa konsumsi energi terbesar dan paling berdampak terhadap lingkungan adalah jaringan nirkanel baik dari sisi Penerima maupun pengirim. Jumlah emisi CO2 meningkat dalam sistem komunikasi, setara dengan peningkatan konsumen seluler. Dan diamati juga bahwa jaringan nirkabel saat ini tidak hemat energi, terutama Base Station (BTS).
Pertumbuhan yang pesat dan mengkhawatirkan pada pengguna jaringan nirkabel ini memaksa kita untuk menggunakan kecepatan data mobile broadband yang lebih tinggi. Kebutuhan untuk restrukturisasi arsitektur jaringan yang mendesak agar dapat memberikan layanan yang baik namun tetap ramah linkungan. Dalam Artikel ini akan dibahas beberapa metode inovatif untuk meningkatkan efisiensi energi dari jaringan nirkabel dan mengembangkan solusi yang mengurangi biaya operasi dan efek pada lingkungan.
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Referensi
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[33] T. Khaleel, F. Hussain, and S. A. Hussain, "A Review of Green Energy Sources, Algorithms and Approaches for Telecommunication Network," in 2021 International Conference on Advances in Computing, Communication, Control and Networking (ICACCCN), 2021, pp. 1-5. doi: 10.1109/ICACCCN51794.2021.9544524.
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[35] I Gede Made Surya Bumi Pracasitaram, Linawati, Rukmi Sari Hartati. Konsep Dan Penerapan Green Computing Di Lingkungan Kampus, Majalah Ilmiah Teknologi Elektro, Vol. 18, No. 3, September – Desember 2019
[36] Carmine Lubritto. Telecommunication Power System: energy saving, renewable sources and environmental monitoring. Department of Environmental Science, II University of Naples, ITALY 2009
[37] Zahra Nurkarima Budiwati Attori, Udisubakti Ciptomulyono, Satria Fadil Persada Green Information Technology in Indonesia A Systematic Literature Review, IPTEK Journal of Proceedings Series No. (7), 2020.
[38] Tao Yu, Shunqing Zhang A Novel Energy Efficiency Metric for Next Generation Wireless Communication Networks. JOURNAL OF LTE A X CLASS FILES, VOL. 14, NO. 8, AUGUST 2022
[39] Hong-Chuan Yang,. Characterizing Energy Efficiency of Wireless Transmission for Green Internet of Things: AData-Oriented Approach, Department of Electrical and Computer Engineering, University of Victoria,2018
[2] Dhillon, H. S., Singh, G., & Gupta, S. (2020). Green communications for future wireless networks: A review. Renewable and Sustainable Energy Reviews, 120, 109640.
[3] Ko, Y. C., & Chang, Y. C. (2020). A survey of green communication in 5G networks. Sustainability, 12(13), 5433.
[4] Saravanan, R., & Shunmuga Sundari, R. (2020). A Review of the Evolution of Mobile Wireless Networks from 1G to 5G. Journal of Advanced Research in Dynamical and Control Systems, 12(2), 1982-1989.
[5] Zhang, X., Zhang, S., & Wang, X. (2021). A Survey on the Evolution of Cellular Network Technologies. IEEE Network, 35(2), 18-25.
[6] Li, Q., Liu, Y., & Li, M. (2020). From 1G to 5G: A Comprehensive Review of Cellular Network Technology. IEEE Wireless Communications, 27(4), 16-23.
[7] Jiang, H., Ding, L., & Li, G. Y. (2020). A Review of the Evolution of Mobile Communication Technologies. IEEE Access, 8, 164290-164301.
[8] Wang, J., Liu, Y., Li, Q., Cui, J., & Li, M. (2021). 6G Wireless Networks: Vision, Requirements, Architecture, and Key Technologies. IEEE Network, 35(3), 444-451.
[9] Zeb, K., Shami, A., & Malik, A. W. (2020). A review of green communication in 5G and beyond: Recent trends and open research challenges. Computer Networks, 178, 107200.
[10] Global e-Sustainability Initiative (GeSI). (2021). Enabling the low carbon economy in the information age. https://www.gesi.org/reports/enabling-the-low-carbon-economy-in-the-information-age
[11] Greenpeace. (2019). Clicking Clean Virginia: The Dirty Energy Powering Data Center Alley. https://www.greenpeace.org/usa/reports/clicking-clean-virginia/
[12] United States Environmental Protection Agency (EPA). (2012). Report to Congress on Server and Data Center Energy Efficiency: Public Law 109-431. https://www.energystar.gov/sites/default/files/buildings/tools/Servers_Data_Center_Report_Congress_Final1.pdf
[13] European Union (EU). (2013). Code of Conduct on Energy Efficiency of Digital TV Service Systems. https://publications.europa.eu/en/publication-detail/-/publication/6c7a6f70-06fc-4f07-80b2-9e0b94f4e53d/language-en
[14] Natural Resources Defense Council (NRDC). (2019). The Growing Carbon Footprint of Streaming Video. https://www.nrdc.org/sites/default/files/growing-carbon-footprint-streaming-video-IP.pdf
[15] Nguyen, D. K., Nguyen, T. N., Nguyen, V. H., & Nguyen, T. H. (2020). Energy-efficient communications for future wireless networks: A review. IEEE Access, 8, 14474-14493.
[16] Ericsson. (2021). Energy and carbon impact of 5G mobile networks. https://www.ericsson.com/en/reports-and-papers/reports/5g-energy-and-carbon
[17] Global e-Sustainability Initiative (GeSI). (2021). Enabling the low carbon economy in the information age. https://www.gesi.org/reports/enabling-the-low-carbon-economy-in-the-information-age
[18] R. K. Singh, A. Patel, and P. Singh, "A Review of Green Energy and its Applications in Mobile Communication Networks," in 2020 3rd International Conference on Computing, Communication, and Security (ICCCS), 2020, pp. 1-5. doi: 10.1109/ICCCS48896.2020.9093237.
[19] B. Ghatol, A. Ghatol, and N. H. Mulla, "A Review of Green Energy Techniques in Cellular Networks," in 2020 International Conference on Smart Electronics and Communication (ICOSEC), 2020, pp. 1-5. doi: 10.1109/ICOSEC49003.2020.9283312.
[20] Chen, H., & Xu, Z. (2015). Research on the Application of Mobile Communication Technology in Smart Grid. 2015 International Conference on Intelligent Transportation, Energy, and Grid (iTEG). IEEE.
[21] Li, Y., Zhang, W., & Zhang, Y. (2014). Communication technology in the smart grid: Existing and emerging technologies. IEEE Communications Surveys & Tutorials, 16(1), 525-540.
[22] Liang, X., Zhang, H., & Xu, Y. (2017). Integration of smart grid and 5G mobile networks: A survey. IEEE Access, 5, 17320-17336.
[23] Lu, R., Li, H., & Liang, X. (2018). Smart grid and 5G wireless communication: Opportunities and challenges. IEEE Wireless Communications, 25(2), 24-31.
[24] Yilmaz, H. B., & Akkaya, K. (2017). A survey on smart grid communication infrastructures: Motivations, requirements and challenges. Ad Hoc Networks, 57, 112-131.
[25] Zhang, Y., Zhou, K., Zhang, Y., & Zhang, H. (2015). Smart grid communication networks: An overview on communications, architecture, and optimization. IEEE Communications Surveys & Tutorials, 17(1), 425-445.
[26] Global e-Sustainability Initiative (GeSI). (2019). The impact of the telecommunications ecosystem on climate change.
[27] Ericsson. (2018). 5G energy efficiency – powering a sustainable future.
[28] World Wildlife Fund (WWF). (2020). Renewable Energy for Telecom Towers: A Roadmap for Implementation in Emerging Markets.
[29] Greenpeace. (2019). Greenpeace Report: Clicking Clean Virginia – The Dirty Energy Powering Data Center Alley.
[30] Kementerian Komunikasi dan Informatika Indonesia. (2018). Keputusan Menteri Komunikasi dan Informatika Republik Indonesia Nomor 187 Tahun 2018 tentang Pedoman Teknis Penyelenggaraan Jaringan Telekomunikasi Ramah Lingkungan (Green Telco).
[31] Elshaer, H. M., & Moharram, M. A. (2021). Green communication in wireless networks: Survey, challenges, and future directions. Computer Networks, 193, 108100.
[32] Zeb, K., Shami, A., & Malik, A. W. (2020). A review of green communication in 5G and beyond: Recent trends and open research challenges. Computer Networks, 178, 107200.
[33] T. Khaleel, F. Hussain, and S. A. Hussain, "A Review of Green Energy Sources, Algorithms and Approaches for Telecommunication Network," in 2021 International Conference on Advances in Computing, Communication, Control and Networking (ICACCCN), 2021, pp. 1-5. doi: 10.1109/ICACCCN51794.2021.9544524.
[34] M. G. Sharma and M. R. Jain, "Study of Green Energy in Telecommunications," in 2020 International Conference on Communication and Electronics Systems (ICCES), 2020, pp. 588-592. doi: 10.1109/ICCES49234.2020.9123654.
[35] I Gede Made Surya Bumi Pracasitaram, Linawati, Rukmi Sari Hartati. Konsep Dan Penerapan Green Computing Di Lingkungan Kampus, Majalah Ilmiah Teknologi Elektro, Vol. 18, No. 3, September – Desember 2019
[36] Carmine Lubritto. Telecommunication Power System: energy saving, renewable sources and environmental monitoring. Department of Environmental Science, II University of Naples, ITALY 2009
[37] Zahra Nurkarima Budiwati Attori, Udisubakti Ciptomulyono, Satria Fadil Persada Green Information Technology in Indonesia A Systematic Literature Review, IPTEK Journal of Proceedings Series No. (7), 2020.
[38] Tao Yu, Shunqing Zhang A Novel Energy Efficiency Metric for Next Generation Wireless Communication Networks. JOURNAL OF LTE A X CLASS FILES, VOL. 14, NO. 8, AUGUST 2022
[39] Hong-Chuan Yang,. Characterizing Energy Efficiency of Wireless Transmission for Green Internet of Things: AData-Oriented Approach, Department of Electrical and Computer Engineering, University of Victoria,2018
Diterbitkan
2023-12-19
##submission.howToCite##
KARDIYASA, Komang Agus Putra; GUNANTARA, Nyoman.
A Literatur Review Green Energy Pada Pemancar Sistem Komunikasi Seluler.
Jurnal Teknologi Elektro, [S.l.], v. 22, n. 2, p. 203-210, dec. 2023.
ISSN 2503-2372.
Tersedia pada: <http://103.29.196.112/index.php/mite/article/view/99404>. Tanggal Akses: 04 mar. 2026
doi: https://doi.org/10.24843/MITE.2023.v22i02.P07.
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