Journal of Telecommunication, Switching Systems and Networks

Abstract

This paper includes the survey of need and issues/challenges faced for energy efficiency in 5G network and D2D technique to improve energy efficiency without compromising the user experience. Improving the energy efficiency is important part while designing a network. Energy efficient communication is required for energy constrained networks such as ad-hoc networks in which battery powered wireless system need to reduce energy usage. Cellular systems need to be energy efficient, particularly as the battery constraints has been made significant problem in mobile communication. Also, significant part of the energy is absorbed by the base station, which produces a large electricity bill. This has urged energy optimization for the use of mobile phones, the achievement of energy efficiency is of great economic value from both, the operator’s and the consumer’s viewpoint.

Keywords: Base station (BS), energy efficiency (EE), device-to-device technology (D2D)

Cite this Article

Anika Chaudhary, Himanshi, Pooja Rani. Energy efficiency issues and D2D technique in 5G network. Journal of Telecommunication, Switching Systems and Networks. 2020; 7(2): 1–6p.

F Tong, Y Wan, L Zheng, J Pan, L Cai. A probabilistic distance-based modeling and analysis for cellular networks with under laying device-to-device communications. IEEE Transactions on Wireless Communications. Jan 2017; 16(1): 451–463.

Strinati E Calvanese, Laurent Herault. Holistic approach for future energy efficient cellular networks. Elektrotechnik und Informationstechnik. (2010); 127(11): 314–320.

Santhi KR et al. Goals of true broad band’s wireless next wave (4G-5G). 2003 IEEE 58th Vehicular Technology Conference. VTC 2003-Fall. Orlando, FL, USA. 2003, Oct. 6–9.

Y Shen, C Jiang, TQS Quek, Y Ren. Device-to-device-assisted communications in cellular networks: an energy efficient approach in downlink video sharing scenario. IEEE Transactions on Wireless Communications. Feb 2016; 15(2): 1575–1587.

Q Wu, GY Li, W Chen, DWK Ng. Energy-efficient D2D overlaying communications with spectrum-power trading. IEEE Transactions on Wireless Communications. July 2017; 16(7): 4404–4419.

DH Lee, KW Choi, WS Jeon, DG Jeong. Two-stage semi-distributed resource management for device-to-device communication in cellular networks. IEEE Transactions on Wireless Communications. April 2014; 13(4): 1908–1920.

P Gandotra, RK Jha, S Jain. Green communication in next generation cellular networks: a survey. IEEE Access. 2017; 5: 11727–11758.

S Chen, J Zhao. The requirements, challenges, and technologies for 5G of terrestrial mobile telecommunication. IEEE Communications Magazine. May 2014; 52(5): 36–43.

Y Benchaabene, N Boujnah, F Zarai. 5G cellular: survey on some challenging techniques. 2017 18th International Conference on Parallel and Distributed Computing, Applications and Technologies (PDCAT). Taipei, Taiwan. Dec 2017. pp. 348–353.

Y Huang, Y Li, H Ren, J Lu, W Zhang. Multi-panel mimo in 5G. IEEE Communications Magazine. March 2018; 56(3): 56–61.

D Nandi, A Maitra. Study of rain attenuation effects for 5G mm-wave cellular communication in tropical location. IET Microwaves, Antennas Propagation. 2018; 12(9): 1504–1507.