Computer Science ›› 2018, Vol. 45 ›› Issue (9): 123-128.doi: 10.11896/j.issn.1002-137X.2018.09.019

Special Issue: Network and communication

• Network & Communication • Previous Articles     Next Articles

Cluster-based Radio Resource Allocation Mechanism in D2D Networks

LI Fang-wei1 HUANG Xu1 ZHANG Hai-bo1 LIU Kai-jian1 HE Xiao-fan2   

  1. Chongqing Key Lab of Mobile Communications Technology,Chongqing University of Posts and Telecommunications,Chongqing 400065,China1
    Department of Electrical Engineering,Lamar University,Beaumonl 77710,USA2
  • Received:2017-07-07 Online:2018-09-20 Published:2018-10-10

Abstract: A cluster-based resource allocation mechanism was proposed for the problem of the limited battery life of the user equipment.The mechanism includs three parts:D2D users are put in disjoint clusters by graph theory,and then the auction algorithm is used to allocate the channel for D2D clusters according to the clustering results.In the end,the power allocation is performed by using non-cooperative game theory model.Simulation results show that the proposed mechanism effectively extends battery life,improves the energy efficiency of the users,and satisfies the requirements of the user transmission rate,thus ensuring the users to obtain higher QoS.

Key words: Auction algorithm, D2D, Energy efficiency, Game theory, Graph coloring

CLC Number: 

  • TN929.5
[1]MARSCH P,SILVA I D,ELAYOUBI S E,et al.Preliminary views and initial considerations on 5G RAN architecture and functional designs[EB/OL].https://metis-ii.5g-ppp.eu/wp-content/uploads/5G-PPPMETIS-II-5G-RAN-Architecture-White-Paper.pdf.
[2]HUANG H C,ZHANG J,ZHANG Z F,et al.Interference-Limi-ted device-to-device multi-user cooperation Scheme for optimization of edge networking[J].Journal of Computer Science and Technology,2016,31(6):1096-1109.
[3]TEHRANI M N,UYSAL M,YANIKOMEROGLU H.Device-to-device communication in 5G cellular networks:challenges,solutions,and future directions[J].IEEE Communications Magazine,2014,52(5):86-92.
[4]ZHANG H,LIAO Y,SONG L.D2D-U:device-to-device com-munications in unlicensed bands for 5G system[J].IEEE Transa-ctions on Wireless Communications,2017,16(6):3507-3519.
[5]PAN J Y,HSU M H.Relay selection of relay-assisted device-to-device and uplink communication underlying cellular networks[C]∥2017 International Conference on Computing,Networking and Communications(ICNC).Santa Clara,CA,2017:980-985.
[6]XIANG M,LI M X,MING Z,et al.Statistical QoS-driven re-source allocation and source adaptation for D2D communications underlaying OFDMA-based cellular networks[J].IEEE Access,2017,5(99):3981-3999.
[7]YANG T,ZHANG R,CHENG X,et al.Graph coloring based resource sharing(GCRS) scheme for D2D communications underlaying Full-Duplex cellular networks[J].IEEE Transactions on Vehicular Technology,2017,99(PP):1.
[8]XU C,SONG L,HAN Z,et al.Efficiency resource allocation for device-to-device underlay communication systems:A reverse ite-rative combinatorial auction based approach[J].IEEE Journal on Selected Areas in Communications,2013,31(9):348-358.
[9]BU S,YU F R,SENARATH G.Interference-aware energy-efficient resource allocation for heterogeneous networks with incomplete channel state information[J].IEEE International Conference on Communications,2013,64(3):6081-6085.
[10]BU S,YU F R,YANIKOMEROGLU H.Interference-aware
energy-efficient resource allocation for OFDMA-based heteroge-neous networks with incomplete channel state information[J].IEEE Transactions on Vehicular Technology,2015,64(3):1036-1050.
[11]WANG F,XU C,SONG L,et al.Energy-efficient resource allocation for device-to-device underlay communication[J].IEEE Transactions on Wireless Communications,2015,14(4):2082-2092.
[12]HOANG T D,LE L B,LE-NGOC T.Energy-efficient resource allocation for D2D communications in cellular networks[C]∥2015 IEEE International Conference on Communications(ICC).IEEE,2015:2251-2256.
[13]TAO Y,SUN J,SHAO S X.Radio resource allocation based on greedy algorithm and successive interference cancellation in device-to-device(D2D) communication[C]∥IET International Conference on Information and Communications Technologies(IETICT 2013).Beijing,2013:452-458.
[14]JAHEON G U,BAE S J,HASAN S F,et al.A combined power control and resource allocation scheme for D2D communication underlaying an LTE-advanced system[J].IEICE Transactions on Communications,2013,96(10):2683-2692.
[15]WANG F,XU C,SONG L,et al.Energy-efficient radio resource and power allocation for device-to-device communication underlaying cellular networks[C]∥2012 International Conference on Wireless Communications & Signal Processing(WCSP).IEEE,2012:1-6.
[16]QIU X,XUEWEN L,DONG K,et al.Energy efficiency analysis
in device-to-device communication underlaying cellular networks[C]∥Consumer Communications and Networking Conference(CCNC),2013 IEEE.IEEE,2013:625-630.
[17]DOERFFEL D,SHARKH S A.A critical review of using the Peukert equation for determining the remaining capacity of leada-cid and lithium-ion batteries[J].Journal of Power Sources,2006,155:395-400.
[18]Evolved universal terrestrial radio access (E-UTRA) ande-volved universal terrestrial radio access network (E-UTRAN)[J].Eurasip Journal on Wireless Communications & Networking,2008,14(1):172-185.
[19]GUNDLACH M.Overview of D2D proximity services standardi-zation in 3GPP LTE[C]∥EuCNC.Bologna,2014.
[20]SARAYDAR C,MANDAYAM N B,GOODMAN D J.Efficient power control via pricing in wireless data networks[C]∥IEEE Transactions on Communications.2002:291-303.
[1] JIANG Yang-yang, SONG Li-hua, XING Chang-you, ZHANG Guo-min, ZENG Qing-wei. Belief Driven Attack and Defense Policy Optimization Mechanism in Honeypot Game [J]. Computer Science, 2022, 49(9): 333-339.
[2] FANG Tao, YANG Yang, CHEN Jia-xin. Optimization of Offloading Decisions in D2D-assisted MEC Networks [J]. Computer Science, 2022, 49(6A): 601-605.
[3] XU Hao, CAO Gui-jun, YAN Lu, LI Ke, WANG Zhen-hong. Wireless Resource Allocation Algorithm with High Reliability and Low Delay for Railway Container [J]. Computer Science, 2022, 49(6): 39-43.
[4] TANG Zhen, HU Yong-hua, LU Hao-song, WANG Shu-ying. Research on DSP Register Pairs Allocation Algorithm with Weak Assigning Constraints [J]. Computer Science, 2021, 48(6A): 587-595.
[5] CHEN Yong, XU Qi, WANG Xiao-ming, GAO Jin-yu, SHEN Rui-juan. Energy Efficient Power Allocation for MIMO-NOMA Communication Systems [J]. Computer Science, 2021, 48(6A): 398-403.
[6] CHENG Yun-fei, TIAN Hong-xin, LIU Zu-jun. Collaborative Optimization of Joint User Association and Power Control in NOMA Heterogeneous Network [J]. Computer Science, 2021, 48(3): 269-274.
[7] WEI Li-qi, ZHAO Zhi-hong, BAI Guang-wei, SHEN Hang. Location Privacy Game Mechanism Based on Generative Adversarial Networks [J]. Computer Science, 2021, 48(10): 266-271.
[8] MAO Ying-chi, ZHOU Tong, LIU Peng-fei. Multi-user Task Offloading Based on Delayed Acceptance [J]. Computer Science, 2021, 48(1): 49-57.
[9] ZHANG Long-xin, ZHOU Li-qian, WEN Hong, XIAO Man-sheng, DENG Xiao-jun. Energy Efficient Scheduling Algorithm of Workflows with Cost Constraint in Heterogeneous Cloud Computing Systems [J]. Computer Science, 2020, 47(8): 112-118.
[10] BAO Jun-bo, YAN Guang-hui, LI Jun-cheng. SIR Propagation Model Combing Incomplete Information Game [J]. Computer Science, 2020, 47(6): 230-235.
[11] CHEN Meng-rong,LIN Ying,LAN Wei,SHAN Jin-zhao. Improvement of DPoS Consensus Mechanism Based on Positive Incentive [J]. Computer Science, 2020, 47(2): 269-275.
[12] MENG Li-min, WANG Kun, ZHENG Zeng-qian, JIANG Wei. Architecture Strategy of D2D Content Edge Cache Based on Particle Swarm Optimization [J]. Computer Science, 2020, 47(11A): 345-348.
[13] ZHAI Yong, LIU Jin, LIU Lei, CHEN Jie. Analysis of Private Cloud Resource Allocation Management Based on Game Theory in Spatial Data Center [J]. Computer Science, 2020, 47(11A): 373-379.
[14] WANG Shuai-hui, HU Gu-yu, PAN Yu, ZHANG Zhi-yue, ZHANG Hai-feng, PAN Zhi-song. Community Detection in Signed Networks with Game Theory [J]. Computer Science, 2020, 47(11A): 449-453.
[15] CAI Wei, BAI Guang-wei, SHEN Hang, CHENG Zhao-wei, ZHANG Hui-li. Reinforcement Learning Based Win-Win Game for Mobile Crowdsensing [J]. Computer Science, 2020, 47(10): 41-47.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!