Green Energy as a Power Source to Mobile Networks

Authors

  • Manoj Ojha SOEIT, Sanskriti University, Mathura, Uttar Pradesh, India Author
  • Rishi Sikka SOEIT, Sanskriti University, Mathura, Uttar Pradesh, India Author

Keywords:

Emission Free Energy, Green Energy, Mobile Network, Power Source, Renewable Energy

Abstract

Due to the obvious large growth of mobile devices data traffic,  phone carriers are among the key energy guzzlers of the  application of information and communication tech (ICT)  architecture, and their implications to world ’s total are quickly  expanding. The developing expense of energy raises the  administrators' working uses (OPEX), yet it likewise leads in a  huge ascent in carbon impressions. Portable information request  is expanding, bringing about a huge expansion in energy  utilization for cell administrators and, as a result, an ascent in  carbon impressions. The prompt effect of carbon dioxide on the  world's science and natural change may be reduced by cutting  down carbon impressions. Future convenient associations are  projected to be invigorated by effective power energy as elective  energy headways improve, cutting down their carbon  impressions. This article presents an outline of the turn of events  and advancement of inexhaustible innovation enabled portable  administrations, covers reenactment reads up for network plan  and streamlining, and spreads out center plan standards and  exploration challenges for feasible innovation fueled giving  remote improvement. 

Downloads

Download data is not yet available.

References

. Han T, Ansari N. On greening cellular networks via multicell cooperation. IEEE Wirel Commun. 2013; [2]. Goiri Í, Le K, Nguyen TD, Guitart J, Torres J, Bianchini R. GreenHadoop: Leveraging green energy in data-processing frameworks. In: EuroSys’12 - Proceedings of the EuroSys 2012 Conference. 2012.

. Ho CK, Zhang R. Optimal energy allocation for wireless communications with energy harvesting constraints. In: IEEE Transactions on Signal Processing. 2012.

. Wu Y, Liu W, Shen Q. Joint optimal placement, routing, and energy allocation in wireless sensor networks with a shared energy harvesting module. Int J Distrib Sens Networks. 2017;

. Zewde TA, Gursoy MC. NOMA-Based Energy-Efficient Wireless Powered Communications. IEEE Trans Green Commun Netw. 2018;

. Nourian M, Dey S, Ahlén A. Distortion Minimization in Multi-Sensor Estimation with Energy Harvesting. IEEE J Sel Areas Commun. 2015;

. Huang C, Zhang R, Cui S. Throughput maximization for the

gaussian relay channel with energy harvesting constraints. IEEE J Sel Areas Commun. 2013;

. Liang G, Zhu Q, Xin J, Pan Z. Joint resource allocation scheme for OFDM wireless-powered cooperative communication networks. KSII Trans Internet Inf Syst. 2017;

. Liu X, Hu F, Shao M, Sui D, He G. Power allocation for energy harvesting in wireless body area networks. China Commun. 2017;

. Wu J, Lu W, Peng H, Liu X, Hua J. Simultaneous wireless information and power transfer in OFDM systems based on subcarrier allocation. In: 2016 International Wireless Communications and Mobile Computing Conference, IWCMC 2016. 2016.

Downloads

Published

2021-11-30

Issue

Vol. 8 No. 6 (2021): International Journal of Innovative Research in Engineering & Management (Nov) 2021

Section

Articles

How to Cite

Green Energy as a Power Source to Mobile Networks . (2021). International Journal of Innovative Research in Engineering & Management, 8(6), 386–389. Retrieved from https://acspublisher.com/journals/index.php/ijirem/article/view/11542