logo

SCIENCE CHINA Information Sciences, Volume 59, Issue 2: 022306(2016) https://doi.org/10.1007/s11432-015-5507-3

Concurrent transmission for energy efficiency of user equipment in 5G wireless communication networks

More info
  • ReceivedJul 24, 2015
  • AcceptedNov 24, 2015
  • PublishedJan 4, 2016

Abstract

There is no abstract available for this article.


Funded by

national High-tech R&D Program of China(863 Program)

111 Project(B08038)

national Natural Science Foundation of China(61501285)

natural Science Basic Research Plan in Shaanxi Province of China(Program No. 2014JQ2-6032)

fundamental Research Funds for the Central Universities(Program No. GK201503018)

national Natural Science Foundation of China(41504122)

"source" : null , "contract" : "2014AA01A701"


Acknowledgment

Acknowledgments

This work was supported by national Natural Science Foundation of China (Grant Nos. 61501285, 41504122), natural Science Basic Research Plan in Shaanxi Province of China (Program No. 2014JQ2-6032), fundamental Research Funds for the Central Universities (Program No. GK201503018), national High-tech R&D Program of China (863 Program) (Grant No. 2014AA01A701), 111 Project (Grant No. B08038).


References

[1] Onireti O, Heliot F, Imran M A. IEEE Trans Wirel Commun, 2012, 11: 556-561 CrossRef Google Scholar

[2] Carroll A, Heiser G. An analysis of power consumption in a smartphone. In:~Proceedings of USENIX Annual Technical Conference. Boston: USENIX Association, 2010. 8--21. Google Scholar

[3] Zhong X, Xu C Z. IEEE Trans Mob Comput, 2007, 6: 1158-1170 CrossRef Google Scholar

[4] Ibrahim M, Khawam K, Tohme S. Network-centric joint radio resource policy in heterogeneous WiMAX-UMTS networks for streaming and elastic traffic. In:Proceedings of IEEE Wireless Communications and Networking Conference, Budapest, 2009. 1--6. Google Scholar

[5] Andrews J G, Buzzi S, Choi W, et al. What will 5G be? IEEE J Sel Areas Commun, 2014, 32: 1065--1082. Google Scholar

[6] Lee W Y, Akyldiz I F. IEEE Trans Mob Comput, 2011, 10: 161-174 CrossRef Google Scholar

[7] Ferrus R, Sallent O, Agusti R. IEEE Wirel Commun, 2010, 17: 22-31 Google Scholar

[8] Dimou K, Aguero R, Bortnik M, et al. Generic link layer: a solution for multi-radio transmission diversity in communication networks beyond 3G. In:~Proceedings of 62nd IEEE Vehicular Technology Conference, Dallas, 2005. 1672--1676. Google Scholar

[9] Bazzi A, Pasolini G, Andrisano O. Multiradio resource management: parallel transmission for higher throughput? EURASIP J Adv Signal Process, 2008, 2008: 763264. Google Scholar

[10] Chen Y, Zhang S, Xu S, et al. IEEE Commun Mag, 2011, 49: 30-37 Google Scholar

[11] Saker L, Elayoubi S E, Chahed T. Minimizing energy consumption via sleep mode in green base station. In: Proceedings of IEEE Wireless Communications and Networking Conference, Sydney, 2010. 1--6. Google Scholar

[12] Ismail M, Zhuang W. IEEE Wirel Commun, 2011, 18: 76-81 CrossRef Google Scholar

[13] Miao G, Himayat N, Li G. IEEE Trans Commun, 2010, 58: 545-554 CrossRef Google Scholar

[14] Wang Y, Xu W, Yang K, et al. IEEE Commun Lett, 2012, 16: 1420-1423 CrossRef Google Scholar

[15] Xie R, Yu F R, Ji H. Energy-efficient spectrum sharing and power allocation in cognitive radio femtocell networks. In:~Proceedings of IEEE INFOCOM, Orlando, 2012. 1665--1673. Google Scholar

[16] Miao G, Himayat N, Li G Y, et al. IEEE Trans Commun, 2012, 60: 112-120 CrossRef Google Scholar

[17] Khakurel S, Musavian L, Le-Ngoc T. Energy-efficient resource and power allocation for uplink multi-user OFDM systems. In:Proceedings of IEEE 23rd International Symposium on Personal Indoor and Mobile Radio Communications (PIMRC), Sydney, 2012. 357--361. Google Scholar

[18] Ma X, Sheng M, Zhang Y. IEEE Commun Lett, 2012, 16: 1952-1955 CrossRef Google Scholar

[19] Radio Access Network; Generic Access Network; Stage 2 (Release 7). TS 43.318, v.8.3.0, Std., 2008. Google Scholar

[20] Akbari A, Imran M, Tafazolli R, et al. IEEE Commun Lett, 2011, 15: 1307-1309 CrossRef Google Scholar

[21] Boyd S, Vandenberghe L. Convex Optimization. Cambridge: Cambridge University Press, 2004. Google Scholar

[22] Sesia S, Toufik I, Baker M. LTE: the UMTS Long Term Evolution. Wiley Online Library, 2009. Google Scholar

[23] Hoekstra G J, van der Mei R D, Bhulai S. Stoch Models, 2012, 28: 144-166 CrossRef Google Scholar

Copyright 2019 Science China Press Co., Ltd. 《中国科学》杂志社有限责任公司 版权所有

京ICP备18024590号-1