An enhanced distributed evolved node-b architecture in 5G tele-communications network
-
2018-03-19 
https://doi.org/10.14419/ijet.v7i2.8.10419
-
. -
Abstract
To meet the regularly expanding versatile information movement request, the portable administrators are conveying a heterogeneous system with numerous entrance innovations and an ever-increasing number of base stations to build the system scope and limit. Be that as it may, the base stations are disconnected from each other, so unique sorts of radio assets and equipment assets can't be shared and dispensed inside the general system agreeably. The versatile administrators are in this manner confronting expanding system operational costs and a high framework control utilization. In this paper, a brought together radio access organize design, alluded to as the super base station (super BS), is proposed, as a conceivable answer for a vitality productive fifth-age (5G) versatile framework. The super base station decouples the coherent capacities and physical elements of conventional base stations, so unique sorts of framework assets can be on a level plane shared and factually multiplexed among all the virtual base stations all through the whole framework. The framework structure and principle functionalities of the super BS are portrayed. Some key advances for framework usage, i.e., the asset pooling, continuous virtualization, versatile equipment asset assignment are likewise featured.
-
References
[1] Yang Congkun, Chen Chaobo and Fu Yongsheng, “Fractional Order Controller Based Fuzzy Control Algorithm For Switched Reluctance Motor†International Journal On Smart Sensing And Intelligent Systems Vol. 9, No. 2, June 2016.864-883.
[2] Chunhuan Song, “Random Signal Frequency Identification Based On Ar Model Spectral Estimation†International Journal On Smart Sensing And Intelligent Systems Vol. 9, No. 2, June 2016.884-908.
[3] Lijuan Ang, “Prediction Of Sewage Quality Based On Fusion Of Bpnetworks†International Journal On Smart Sensing And Intelligent Systems Vol. 9, No. 2, June 2016.909-926.
[4] Yaohui Li, “A Kriging-Based Unconstrained Global Optimization Algorithm†International Journal On Smart Sensing And Intelligent Systems Vol. 9, No. 2, June 2016.927-952.
[5] Yanmei Meng, Wenxing Li, Qingwei Chen, Xian Yu, Kangyuan Zheng And Guancheng Lu , “An Improved Multi-Objective Evolutionary Optimization Algorithm For Sugar Cane Crystallization†International Journal On Smart Sensing And Intelligent Systems Vol. 9, No. 2, June 2016.953-978.
[6] Cisco, Cisco Visual Networking Index: Forecast and Methodology, 2012–2017, 〈http://www.cisco.com/〉.
[7] Y. Zhou, J. Wang, M. Sawahashi, Downlink transmission of broadband OFCDM systems—Part I: hybrid detection, IEEE Trans. Commun. COM-53 (4) (2005) 718–729.
[8] V. Garcia, Y. Zhou, J.L. Shi, Coordinated multipoint transmission- in dense cellular networks with user-centric adaptive clustering, IEEE Trans. Wireless Comm. 13 (8) (2014) 4297–4308.
[9] China Mobile Research Institute, C-RAN The Road Towards Green RAN, White Paper, v2.5, 〈http://labs.chinamobile. com/cran/〉, October 2011.
[10] Y. Lin, L. Shao, Q. Wang, et al., Wireless network cloud: architecture and system requirements, IBM J. Res. Dev. 54 (1) (2010) 1–12.
[11] Alcatel-Lucent, Light Radio White Paper: Technical Overview, 〈http://www.alcatel-lucent.com/ 〉, 2011.
[12] Next Generation Mobile Networks (NGMN) Alliance, NGMN CRAN Suggestions on Potential Solutions to CRAN, 〈http:// www.ngmn.org/〉, 2011.
[13] C.L. I, J. Huang, R. Duan, et al., Recent progress on C-RAN centralization and cloudification, IEEE Access 2 (2014) 1030–1039.
[14] IEEE, IEEE 1588 Precision Time Protocol (PTP) Version 2 Specification, March 2008.
[15] China Mobile Ltd, China Mobile Specification for 1PPS+TOD Time Interface for Precision Time Synchronization, v1.0.0, April 2011. G.N. Rouskas, Network Virtualization: A Tutorial, 〈http:// rouskas.csc.ncsu.edu/Publications/Talks/〉.
[16] P. Barham, B. Dragovic, K. Fraser, et al., Xen and the art of virtualization, ACM SIGOPS Oper. Syst. Rev. 37 (December (5)) (2003) 164–177.
[17] G. Zhai, et al., Load diversity based optimal processing resource allocation for super base stations in centralised radio access networks, Sci. China Inf. Sci. 57 (4) (2014) 1–12.
[18] T.Padmapriya and V.Saminadan, “Utility based Vertical Handoff Decision Model for LTE-A networksâ€, International Journal of Computer Science and Information Security, ISSN 1947-5500, vol.14, no.11, November 2016.
[19] S.V.Manikanthan and K.srividhya "An Android based secure access control using ARM and cloud computing", Published in: Electronics and Communication Systems (ICECS), 2015 2nd International Conference on 26-27 Feb. 2015, Publisher: IEEE, DOI: 10.1109/ECS.2015.7124833.
[20] Bethireddy Navya Deepika, Dr. K. Kalimuthu, “Fluffy Logic Based Energy Efficient Routing Protocol for Wireless Sensor Networksâ€, International Innovative Research Journal of Engineering and Technology. ISSN NO: 2456-1983. Vol: 2 Issue 4 June 2017.149-154.
-
Downloads
-
How to Cite
Padmapriya, T., & V. Manikanthan, S. (2018). An enhanced distributed evolved node-b architecture in 5G tele-communications network. International Journal of Engineering & Technology, 7(2.8), 248-254. https://doi.org/10.14419/ijet.v7i2.8.10419Received date: 2018-03-21
Accepted date: 2018-03-21
Published date: 2018-03-19