Eicic Dissertation

  • 1.

    Hwang I, Song B, Somiman S S, et al. A holistic view on hyperdense heterogeneous and small cell networks. IEEE Commun Mag, 2013, 51: 20–27CrossRefGoogle Scholar

  • 2.

    Xu Z Z, Qin W D, Tang Q Y, et al. Energy-efficient cognitive access approach to convergence communications. Sci China Inf Sci, 2014, 57: 042305Google Scholar

  • 3.

    Nakamura T, Nagata S, Benjebbour A, et al. Trends in small cell enhancements in LTE advanced. IEEE Commun Mag, 2013, 51: 98–105CrossRefGoogle Scholar

  • 4.

    Guvenc I, Quek T Q S, Kountouris M, et al. Heterogeneous and small cell networks: part 1. IEEE Commun Mag, 2013, 51: 34–35CrossRefGoogle Scholar

  • 5.

    Bhushan N, Li J Y, Malladi D, et al. Network densification: the dominant theme for wireless evolution into 5G. IEEE Commun Mag, 2014, 52: 82–89CrossRefGoogle Scholar

  • 6.

    Deb S, Monogioudis P, Miernik J, et al. Algorithms for enhanced inter-cell interference coordination (eICIC) in LTE HetNets. IEEE/ACM Trans Netw, 2014, 22: 137–150CrossRefGoogle Scholar

  • 7.

    Peng Y, Qin F. Exploring Het-Net in LTE-advanced system: interference mitigation and performance improvement in macro-pico scenario. In: Proceedings of IEEE International Conference on Communications Workshops (ICC), Kyoto, 2011. 1–5Google Scholar

  • 8.

    Hu R Q, Qian Y, Li W. On the downlink time, frequency and power coordination in an LTE relay network. In: Proceedings of IEEE Global Telecommunications Conference (GLOBECOM), Houston, 2011Google Scholar

  • 9.

    Xu Y H, Wang J L, Wu Q H, et al. Opportunistic spectrum access in cognitive radio networks: global optimization using local interaction games. IEEE J Sel Top Signal Process, 2012, 6: 180–194MathSciNetCrossRefGoogle Scholar

  • 10.

    Xu Y H, Wu Q H, Wang J L, et al. Opportunistic spectrum access using partially overlapping channels: graphical game and uncoupled learning. IEEE Trans Commun, 2013, 61: 3906–2918CrossRefGoogle Scholar

  • 11.

    Jiang H L, Wang H, Zhu W X, et al. Carrier aggregation based interference coordination for LTE-A macro-pico Het-Net. In: Proceedings of IEEE Vehicular Technology Conference (VTC Spring), Dresden, 2013. 1–6Google Scholar

  • 12.

    Ngo D T, Khakurel S, Le-Ngoc T. Joint subchannel assignment and power allocation for OFDMA femtocell networks. IEEE Trans Wirel Commun, 2014, 13: 342–355CrossRefGoogle Scholar

  • 13.

    Li W, Delicatob F C, Pires P F, et al. Efficient allocation of resources in multiple heterogeneous Wireless Sensor Networks. J Parallel Distrib Comput, 2014, 74: 1775–1788CrossRefGoogle Scholar

  • 14.

    Chen J M, Wang P, Zhang J. Adaptive soft frequency reuse scheme for in-building dense femtocell networks. China Commun, 2013, 10: 44–55Google Scholar

  • 15.

    Nagaraj S, Raghavendra M R, Fleming P J, et al. Multi-cell distributed interference cancelation for co-operative pico-cell clusters. In: Proceedings of IEEE Global Telecommunications Conference (GLOBECOM), Anaheim, 2012. 4193–9199Google Scholar

  • 16.

    Pateromichelakis E, Shariat M, Quddus A, et al. Dynamic clustering framework for multi-cell scheduling in dense small cell networks. IEEE Commun Lett, 2013, 17: 1802–1805CrossRefGoogle Scholar

  • 17.

    Abdelnasser A, Hossain E, Dong I K. Clustering and resource allocation for dense femtocells in a two-tier cellular OFDMA network. IEEE Trans Wirel Commun, 2014, 13: 1628–1641CrossRefGoogle Scholar

  • 18.

    Yang L, Wen P P. Location based autonomous power control for ICIC in LTE-A heterogeneous networks. In: Proceedings of IEEE Global Telecommunications Conference (GLOBECOM), Houston, 2011Google Scholar

  • 19.

    Li Q C, Wu G, Hu R Q. Analytical study on network spectrum efficiency of ultra dense networks. In: Proceedings of IEEE 24th International Symposium on Personal Indoor and Mobile Radio Communications (PIMRC), London, 2013. 2764–2768Google Scholar

  • 20.

    Li Q, Hu R Q, Xu Y R, et al. Optimal fractional frequency reuse and power control in the heterogeneous wireless networks. IEEE Trans Wirel Commun, 2013, 12: 2658–2668CrossRefGoogle Scholar

  • 21.

    Duy T N, Long B L, Le-Ngoc T. Distributed pareto-optimal power control for utility maximization in femtocell networks. IEEE Trans Wirel Commun, 2012, 11: 3434–3446CrossRefGoogle Scholar

  • 22.

    Liang L, Feng G. A game-theoretic framework for interference coordination in OFDMA relay networks. IEEE Trans Veh Technol, 2012, 61: 321–332CrossRefGoogle Scholar

  • 23.

    Simsek M, Czylwik A. Improved decentralized fuzzy Q-learning for interference reduction in heterogeneous LTEnetworks. In: Proceedings of 17th International OFDM Workshop, Essen, 2012. 1–6Google Scholar

  • 24.

    Han S J, Young J S, Xia P, et al. Heterogeneous cellular networks with flexible cell association: a comprehensive downlink SINR analysis. IEEE Trans Wirel Commun, 2012, 11: 3484–3495CrossRefGoogle Scholar

  • 25.

    Shi Y, Eberhart R. A modified particle swarm optimizer. In: Proceedings of IEEE World Congress on Computational Intelligence, Anchorage, 1998. 69–73Google Scholar

  • 26.

    Zhang H J, Llorca J, Davis C, et al. Nature-inspired self-organization, control, and optimization in heterogeneous wireless networks. IEEE Trans Mob Comput, 2012, 11: 1207–1222CrossRefGoogle Scholar

  • 27.

    Ghazzai H, Yaacoub E, Alouini M, et al. Optimized smart grid energy procurement for LTE networks using evolutionary algorithms. IEEE Trans Veh Technol, 2014, 99: 1–12Google Scholar

  • 28.

    Li Y L, Shao W, You L, et al. An improved PSO algorithm and its application to UWB antenna design. IEEE Antenn Wirel Propag Lett, 2013, 12: 1236–1239CrossRefGoogle Scholar

  • 29.

    Li Z H, Wang H, Pan Z W, et al. QoS and channel state aware load balancing in 3GPP LTE multi-cell networks. Sci China Inf Sci, 2013, 56: 042309MathSciNetGoogle Scholar

  • 30.

    Wang H, Liu N, Wu P, et al. Three novel opportunistic scheduling algorithms in CoMP-CSB scenario. Sci China Inf Sci, 2013, 56: 082301MathSciNetGoogle Scholar

  • 31.

    Stephen B, Lieven V. Convex Optimization. Cambridge: Cambridge University Press, 2009. 136–146Google Scholar

  • 32.

    van den Bergh F. An Analysis of Particle Swarm Optimizers. Dissertation for the Doctoral Degree. Pretoria: University of Pretoria, 2006Google Scholar

  • 33.

    Yang X M, Yuan J S, Yuan J Y, et al. A modified particle swarm optimizer with dynamic adaptation. Appl Math Comput, 2007, 189: 1205–1213MathSciNetCrossRefGoogle Scholar

  • 34.

    3GPP. 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA); Further Advancements for E-UTRA Physical Layer Aspects (Release 9). Technical Report 3GPP TR 36.814 V9.0.0. 2010Google Scholar

  • 35.

    Kim K, Shin Y. An improved power allocation scheme using particle swarm optimization in cooperative wireless communication systems. In: Proceedings of Asia-Pacific Conference on Communications, Sabah, 2011. 654–658CrossRefGoogle Scholar

  • Голос Грега Хейла эхом отдавался в ее сознании: «Сьюзан, Стратмор меня убьет, коммандер влюблен в тебя!» Она подошла к огромному круглому порталу и начала отчаянно нажимать кнопки.

    Дверь не сдвинулась с места. Она пробовала снова и снова, но массивная плита никак не реагировала. Сьюзан тихо вскрикнула: по-видимому, отключение электричества стерло электронный код.

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