Computer Science ›› 2019, Vol. 46 ›› Issue (10): 109-115.doi: 10.11896/jsjkx.180901787
• Network & Communication • Previous Articles Next Articles
ZHANG Hui-juan, ZHANG Da-min, YAN Wei, CHEN Zhong-yun, XIN Zi-yun
CLC Number:
| [1]ALMOFARI N H,KISHK S,ZAKI F W.Auction based algorithm for distributed resource allocation in multitier-heteroge-neous cellular networks[C]//International Conference on Computer Engineering & Systems.IEEE,2017:426-433. [2]CHEN Y,AI B,NIU Y,et al.Resource allocation for Device-to-Device communications underlaying heterogeneous cellular networks using coalitional games[J].IEEE Transactions on Wireless Communications,2018,17(6):4163-4176. [3]YANG H H,LEE J,QUEK T Q S.Heterogeneous cellular network with energy harvesting based D2D communication[J].IEEE Transactions on Wireless Communications,2016,15(2):1406-1419. [4]HAMDI M,YUAN D,ZAIED M.GA-based scheme for fair joint channel allocation and power control for underlaying D2D multicast communications[C]//International Wireless Communications and Mobile Computing Conference.IEEE,2017:446-451. [5]KAZMI S M A,TRAN N H,SAAD W,et al.Mode Selection and Resource Allocation in Device-to-Device Communications:A Matching Game Approach[J].IEEE Transactions on Mobile Computing,2017,16(11):3126-3141. [6]ALQERM I,SHIHADA B.Sophisticated Online Learning Sche-me for Green Resource Allocation in 5G Heterogeneous Cloud Radio Access Networks[J].IEEE Transactions on Mobile Computing,2018,17(10):2423-2437. [7]PÉREZ-ROMERO J,SÁNCHEZ-GONZÁLEZ J,AGUST R, et al.Power-Efficient resource allocation in a heterogeneous network with cellular and D2D Capabilities[J].IEEE Transactions on Vehicular Technology,2016,65(11):9272-9286. [8]CELIK A,RADAYDEH R M,AL-QAHTANI F S,et al.Joint interference management and resource allocation for device-to-device(D2D) communications underlying downlink/uplink decoupled (DUDe) heterogeneous networks[C]//IEEE International Conference on Communications.IEEE,2017. [9]DOMINIC S,JACOB L.Distributed Resource Allocation for D2D Communications Underlaying Cellular Networks in Time-Varying Environment[J].IEEE Communications Letters,2017,22(2):388-391. [10]JIANG F,WANG B C,SUN C Y,et al.Resource allocation and dynamic power control for D2D communication underlaying uplink multi-cell networks[J].Wireless Networks,2018,24(2):549-563. [11]SAEED A,KATRANARAS E,DIANATI M,et al.Dynamic femtocell resource allocation for managing inter-tier interference in downlink of heterogeneous networks[J].Iet Communications,2016,10(6):641-650. [12]SALAMEH H B.Efficient Resource Allocation for Multicell Heterogeneous Cognitive Networks With Varying Spectrum Availability[J].IEEE Transactions on Vehicular Technology,2016,65(8):6628-6635. [13]WANG H,LEUNG S H,SONG R.Uplink Area Spectral Efficiency Analysis for Multichannel Heterogeneous Cellular Networks With Interference Coordination[J].IEEE Access,2018,6(1):14485-14497. [14]ELSHERIF A R,DING Z,LIU X,et al.Resource allocation in Two-Tier heterogeneous networks through Enhanced Shadow Chasing[J].IEEE Transactions on Wireless Communications,2013,12(12):6439-6453. [15]ZHENG D,HE C,JIANG L,et al.QoS based resource allocation formulti-D2D communications in heterogeneous networks[C]//IEEE International Conference on Communication workshop.IEEE,2015:602-607. [16]YUAN Q,SUN Y C,LI J L,et al.A LTE uplink closed loop power control algorithm based ondivision of UEs[J].Journal of Chongqing University of Posts and Telecommunications(Natural Science),2013,25(3):305-309.(in Chinese) 袁泉,孙彦超,李校林,等.一种基于用户划分的LTE上行闭环功率控制算法[J].重庆邮电大学学报(自然科学版),2013,25(3):305-309. [17]SUN S,SHIN Y.Resource allocation for D2D communication using Particle Swarm Optimization in LTE networks[C]//International Conference on Information and Communication Technology Convergence.IEEE,2014:371-376. [18]NIE S,FAN Z,ZHAO M,et al.Q-learning based power control algorithm for D2D communication[C]//IEEE,International Symposium on Personal,Indoor,and Mobile Radio Communications.IEEE,2016:1-6. [19]SONG Q,WANG X,QIU T,et al.An Interference Coordination based Distributed Resource Allocation Scheme in Heterogeneous Cellular Networks[J].IEEE Access,2017,5:2152-2162. [20]SUN S,KIM K Y,SHIN O S,et al.Device-to-Device resource allocation in LTE-advanced networks byhybrid particle swarm optimization and genetic algorithm[J].Peer-to-Peer Networ-king and Applications,2016,9(5):945-954. [21]TANG R,DONG J,ZHU Z,et al.Resource Allocation for Underlaid Device-to-Device Communication by Incorporating Both Channel Assignment and Power Control[C]//International Conference on Communication Systems & Network Technologies.IEEE,2015:432-436. [22]MIN H,SEO W,LEE J,et al.Reliability improvement using receive mode selection in the Device-to-Device uplink period underlaying cellular networks[J].IEEE Transactions on Wireless Communications,2011,10(2):413-418. [23]EBERHART,SHI Y.Particle swarm optimization develop-ments,applications and resources[C]//Proceedings of the 2001 Congress on Evolutionary Computation.IEEE,2002:81-86. [24]CUI H M,ZHU Q B.Convergence analysis and parameter selection in particle swarm optimization[J].Computer Engineering and Applications,2007,43(23):89-91,131.(in Chinese) 崔红梅,朱庆保.微粒群算法的参数选择及收敛性分析[J].计算机工程与应用,2007,43(23):89-91,131. [25]GAO H J,WANG L.Bird swarm algorithm based on dynamic inertia weight[J/OL].Application Research of Computers,2019,36(5).[2018-09-21].http://kns.cnki.net/kcms/detail/51.1196.TP.20180314.1730.038.html.(in Chinese) 高宏进,王力.一种基于动态惯性权重的鸟群优化算法[J/OL].计算机应用研究,2019,36(5).[2018-09-21].http://kns.cnki.net/kcms/detail/51.1196.TP.20180314.1730.038.html. [26]KENNEDY J,EBERHART R C.A discrete binary version of the particle swarm algorithm[C]//IEEE International Confe-rence on Systems,Man,and Cybernetics,Computational Cybernetics and Simulation.IEEE,2002:4104-4108. [27]HAIDER A,LEE S H,HWANG S H,et al.Uplinkopen loop power control for LTE Het-Net[C]//Ursi-Asia-Pacific Radio Science Conference.IEEE,2017:83-85. |
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