Self Consolidating Source Management Structure in of DMA Femtocells

International Journal of Computer Science and Engineering
© 2016 by SSRG - IJCSE Journal
Volume 3 Issue 4
Year of Publication : 2016
Authors : A.M.Rangaraj, K.Harathi

pdf
How to Cite?

A.M.Rangaraj, K.Harathi, "Self Consolidating Source Management Structure in of DMA Femtocells," SSRG International Journal of Computer Science and Engineering , vol. 3,  no. 4, pp. 39-45, 2016. Crossref, https://doi.org/10.14445/23488387/IJCSE-V3I4P114

Abstract:

The Worldwide interoperability for microwave access (WiMAX) in light of IEEE 802.16 and Long Term Evolution (LTE),are the most rising broadband remote advances also, is reasonable distinct option for conventional wired broadband methods because of its high asset use, simple execution and minimal effort. In the late years, WiMAX (3G) innovation is broadly utilized for remote correspondence frameworks as a part of numerous nations since it has rich arrangement of elements with promising broadband remote access systems. In any case, WiMAX innovation has a few disadvantages, for example, low piece rate for long separation, low speed of availability, low scope region, security issue et cetera. Among these constraints, system scope for WiMAX innovation in mostly considered in this study. Keeping in mind the end goal to overcome system scope confinement of WiMAX and issue of availability, we seek another technology.Mobile WiMAX is a remote systems administration framework which gives remote broadband to settled and portable terminals. WIMAX(worldwide interoperability for microwave.

Keywords:

 

Mobile WiMAX is a remote systems administration framework which gives remote broadband to settled and portable terminals. WIMAX(worldwide interoperability for microwave.

References:

[1] ―Cisco Visual Networking Index: Global Mobile Data Traffic ForecastUpdate, 2011-2016, Feb 2012.
[2] R. Van Nee and R. Prasad, ―OFDM for Wireless Multimedia Communi-cations, Artech House, 2000.
[3] J. G. Andrews, H. Claussen, M. Dohler, S. Rangan and M. C. Reed,―Femtocells: Past, Present, and Future,IEEE Journal on Selected Areasin Communications, vol. 30, no. 3, pp. 497-508, 2012.
[4] H. Ekstrom, A. Furuskar, J. Karlsson, M. Meyer, S. Parkvall, J. Torsner,and M. Wahlqvist, ―Technical Solutions for the 3G Long Term Evolu-tion, IEEE Communications Magazine, vol. 44, no. 3, pp. 38-45, 2006.
[5] S. Yeh, S. Talwar, S. Lee, and H. Kim, ―WiMAXFemtocells: APerspective on Network Architecture, Capacity, and Coverage, IEEECommunications Magazine, vol. 46, no. 10, pp. 58-65, 2008.
[6] R. Kim, J. S. Kwak, and K. Etemad, ―WiMAXFemtocell: Requirements,Challenges, and Solutions,IEEE Communications Magazine, vol. 47, no.9, pp. 84-91, Sep. 2009.
[7] V. Chandrasekhar, J. G. Andrews, and A. Gatherer, ―FemtocellNetworks:ASurvey,IEEE Comm. Magazine, vol. 46, no. 9, pp. 59-67, Sep. 2008.
[8] Small Cell Forum, ―Global Consumer Research on Femtocells - Key Find-ings of a Six-NationStudy, http://www.smallcellforum.org/resources-white-papers, Jan. 2011.
[9] D. Lopez-perez, I. Guvenc, G. Roche, M. Kountouris, T. Quek, andJ. Zhang, ―Enhanced Intercell Interference Coordination Challenges inHeterogeneousNetworks,IEEE Wireless Communications, vol. 18, no.3, pp. 22-30, Jun. 2011.
[10] B. Kauffmann, F. Baccelli, A. Chaintreau, V. Mhatre, K. Papagiannaki,and C. Diot, ―Measurement-Based Self Organization of Interfering 802.11Wireless Access Networks, In Proc. ofIEEE INFOCOM, 2007.
[11] D. Lopez-Perez, A. Valcarce, G. de la Roche, and J. Zhang, ―OFDMAFemtocells: A Roadmap on Interference Avoidance,IEEECommunica-tions Magazine, vol. 47, no. 9, pp. 41-48, Sep. 2009.
[12] V. Chandrasekhar and J. G. Andrews, ―Uplink Capacity and InterferenceAvoidance for Two-Tier Femtocell Networks, IEEE Transactions onWireless Communications, vol. 8, no. 7, pp. 3498- 3509, Jul. 2007.
[13] M. Y. Arslan, J. Yoon, K. Sundaresan, S. V. Krishnamurthy, andS. Banerjee, ―FERMI: A FEmtocell Resource Management Systemfor Interference Mitigation in OFDMA Networks, In Proc. of ACMMobiCom, 2011.
[14] 3GPP, ―Technical Specification Group Radio Access Networks; 3GHome NodeB Study Item Technical Report (release 8),TR 25.820 V1.0.0(2007-11), Nov. 2007.
[15] J. Yun and K. G. Shin, ―Adaptive Interference Management of OFDMAFemtocells for Co-Channel Deployment, IEEE Journal on SelectedAreas in Communications, vol. 29, no. 6, pp. 1225- 1241, Jun. 2011