Browse > Article
http://dx.doi.org/10.17661/jkiiect.2021.14.1.14

Prediction Model of Energy Consumption of Wired Access Networks using Machine Learning  

Suh, Yu-Hwa (Baird University College, Soongsil University)
Kim, Eun-Hoe (Department of Software Engineering, Seoil University)
Publication Information
The Journal of Korea Institute of Information, Electronics, and Communication Technology / v.14, no.1, 2021 , pp. 14-21 More about this Journal
Abstract
Green networking has become a issue to reduce energy wastes and CO2 emission by adding energy managing mechanism to wired data networks. Energy consumption of the overall wired data networks is driven by access networks, expect for end devices. However, on a global scale, it is more difficult to manage centrally energy, measure and model the real energy use and energy savings potential of the access networks. This paper presented the multiple linear regression model to predict energy consumption of wired access networks using supervised learning of machine learning with data collected by existing investigated materials, actual measured values and results of many models. In addition, this work optimized the performance of it by various experiments and predict energy consumption of wired access networks. The performance evaluation of the regression model was achieved by well-knowned evaluation metrics.
Keywords
Energy Consumption; Green Networking; Linear Regression; Machine Learning; Supervised Learning; Wired Access Network;
Citations & Related Records
연도 인용수 순위
  • Reference
1 R. Bolla, R, Bruschi, F. Davoli, and F. Cucchietti, "Energy efficiency in the future Internet: A survey of existing approaches and trends in energy-aware fixed network infrastructures", IEEE Commun. Surveys & Tuts., vol . 13, no. 2, pp. 223-244, 2011.   DOI
2 J. Baliga, R. Ayre, W. V. Sorin, K. Hinton, and R. S. Tucker, "Energy consumption in optical IP networks," J. Lightwave Technol., vol. 27, no. 13, pp. 2391-2403, 2009.   DOI
3 R. Bolla, R. Bruschi, A. Carrega, F. Davoli, D. Suino, C. Vassilakis, and A. Zafeiropoulos, "Cutting the energy bills of Internet Service Providers and telecoms through power management: An impact analysis," Computer Networks, vol. 56, pp. 2320-2342, 2012.   DOI
4 S. Lambert, W. V. Heddeghem, W. Vereecken, B. Lannoo, D. Colle, and M. Pickavet, "Worldwide electricity consumption of communication networks," Optics Express, vol. 20, no. 26, pp. B513-B524, 2012.   DOI
5 V. C. Coroama, C. Schien, C. Preist, and L. M. Hilty, "The energy intensity of the internet: Home and access networks ICT innovations for sustainability," Advances in Intell. Syst. Comput., vol. 310, pp. 137-155, 2015.
6 Y. H. Suh, K. Y. Kim, "Estimation Modelling of Energy Consumption and Anti-greening Impacts in Large-Scale Wired Access Networks", J. Korean Institute of Communications and Information Sciences, Vol. 41 No. 08, pp. 928-941, 2016. 08.   DOI
7 David A. Freedman (2009). Statistical Models: Theory and Practice. Cambridge University Press. p. 26.
8 S. L.anzisera, B. Nordman, and R. Brown, "Data network equipment energy use and savings potential in buildings," Energy Efficiency, vol. 5, no. 2, pp. 149-162, 2012.   DOI
9 California Energy Commission, Small Network Equipment, California Energy Commission, Jul. 2013.