Journal on Communications ›› 2019, Vol. 40 ›› Issue (7): 186-196.doi: 10.11959/j.issn.1000-436x.2019160
• Correspondences • Previous Articles Next Articles
Yongjun XU1,2,Yuan HU1,Guoquan LI1(),Jinzhao LIN1,Qianbin CHEN1
Revised:
2019-06-11
Online:
2019-07-25
Published:
2019-07-30
Supported by:
CLC Number:
Yongjun XU,Yuan HU,Guoquan LI,Jinzhao LIN,Qianbin CHEN. Robust resource allocation algorithm for heterogeneous wireless networkwith SWIPT[J]. Journal on Communications, 2019, 40(7): 186-196.
"
符号 | 物理意义 | 符号 | 物理意义 |
M | 宏蜂窝用户数量 | N | 飞蜂窝用户数量 |
pj | 飞蜂窝基站分配给第 j个飞蜂窝用户接收机的发射功率 | pn | 飞蜂窝基站分配给第n个飞蜂窝用户接收机的发射功率 |
hj ,i | 飞蜂窝基站对第j个飞蜂窝用户服务时对第i个宏蜂窝用户接收机的干扰信道增益 | Ith | 宏蜂窝用户接收机能够容忍的最大干扰阈值 |
Pmax | 飞蜂窝基站最大发射功率约束 | ρj | 第 j个接收机信号功率中信息信号的比例系数 |
飞蜂窝基站到第 j个飞蜂窝用户接收机链路上的直接信道增益 | Ij | 宏蜂窝网络对第 j个飞蜂窝用户接收机的干扰功率 | |
邻近飞蜂窝用户之间的多址干扰信道增益 | σ2 | 接收机端的背景噪声 | |
Rj | 第j个飞蜂窝用户接收机端的实际速率 | 第j个飞蜂窝用户接收机端的最小传输速率需求 | |
PC | 电路功率损耗 | θ | 能量收集效率 |
εi | 宏蜂窝用户i的中断概率阈值 | 飞蜂窝到宏蜂窝用户的干扰信道增益估计值 |
[1] | ZHOU X , ZHANG R , HO C K . Wireless information and power transfer:architecture design and rate-energy tradeoff[J]. IEEE Transactions on Communications, 2013,61(11): 4754-4767. |
[2] | TANG J , SHOJAEIFARD A , SO D K C ,et al. Energy efficiency optimization for CoMP-SWIPT heterogeneous networks[J]. IEEE Transactions on Communications, 2018,66(12): 6368-6383. |
[3] | AKBAR S , DENG Y , NALLANATHAN A ,et al. Simultaneous wireless information and power transfer in K-tier heterogeneous cellular networks[J]. IEEE Transactions on Wireless Communications, 2016,15(8): 5804-5818. |
[4] | XU Y J , HU Y , CHEN Q B ,et al. Optimal power allocation for multiuser OFDM-based cognitive heterogeneous networks[J]. China Communication, 2017,14(9): 52-61. |
[5] | LAI W , CHANG T , LEE T . Power and admission control for spectral and energy efficiency maximization in heterogeneous OFDMA networks[J]. IEEE Transactions on Wireless Communications, 2016,15(5): 3531-3547. |
[6] | DAVASLIOGLU K , COSKUN C C , AYANOGLU E . Energy-efficient resource allocation for fractional frequency reuse in heterogeneous networks[J]. IEEE Transactions on Wireless Communications, 2015,14(10): 5484-5497. |
[7] | XU Y J , HU Y , LI G Q . Robust rate maximization for heterogeneous wireless networks under channel uncertainties[J]. Sensors, 2018,18(2): 1-18. |
[8] | WANG S W , SHI W , WANG C . Energy-efficient resource management in OFDM-based cognitive radio networks under channel uncertainty[J]. IEEE Transactions on Communications, 2015,63(9): 3092-3102. |
[9] | HAO Y , NI Q , LI H ,et al. Robust multi-objective optimization for EE-SE tradeoff in D2D communications underlaying heterogeneous networks[J]. IEEE Transactions on Communications, 2018,66(10): 4936-4949. |
[10] | LOHANI S , HOSSAIN E , BHARGAVA V K . On downlink resource allocation for SWIPT in small cells in a two-tier HetNet[J]. IEEE Transactions on Wireless Communications, 2016,15(11): 7709-7724. |
[11] | MUNIR H , HASSAN S A , PERVAIZ H ,et al. Energy efficient resource allocation in 5G hybrid heterogeneous networks:a game theoretic approach[C]// IEEE Vehicular Technology Conference (VTC 2017). IEEE, 2017: 24-27. |
[12] | 夏玮玮, 丁兆明, 沈连丰 . 异构网络中基于负载传递的联合接纳控制算法[J]. 通信学报, 2018,39(5): 34-47. |
XIA W W , DING Z M , SHEN L F . Joint admission control algorithm based on load transfer in heterogeneous networks[J]. Journal on Communications, 2018,39(5): 34-47. | |
[13] | XU Y J , ZHAO X H . Optimal power allocation for multiuser underlay cognitive radio networks under QoS and interference temperature constraints[J]. China Communications, 2013,10(10): 91-100. |
[14] | YAN J , PU W , LIU H ,et al. Robust chance constrained power allocation scheme for multiple target localization in co-located MIMO radar system[J]. IEEE Transactions on Signal Processing, 2018,66(15): 3946-3957. |
[15] | LEE H , KWAK J , LE L B . Robust power allocation in cognitive radio networks with uncertain knowledge of interference[J]. IEEE Wireless Communications Letters, 2016,5(5): 468-471. |
[16] | XU Y J , HU Y , CHEN Q B ,et al. Robust resource allocation for multi-tier cognitive heterogeneous networks[C]// IEEE International Conference on Communications (ICC 2017). IEEE, 2017: 21-25. |
[17] | LI S , NI Q , SUN Y J ,et al. Energy-efficient resource allocation for industrial cyber-physical IoT systems in 5G Era[J]. IEEE Transactions on Industrial Informatics, 2018,14(6): 2618-2628. |
[18] | BOYD S , VANDENBERGHE L . Convex optimization[M]. Cambridge: Cambridge University PressPress, 2004. |
[19] | NADKAR T , THUMAR V , TEJ G P S ,et al. Distributed power allocation for secondary users in a cognitive radio scenario[J]. IEEE Transactions on Wireless Communications, 2012,11(4): 1576-1586. |
[20] | LEE C , CHANG R , LIN C ,et al. Sum-rate maximization for energy harvesting-aided D2D communications underlaid cellular networks[C]// IEEE 28th Annual International Symposium on Personal,Indoor,and Mobile Radio Communications (PIMRC). IEEE, 2017: 1-6. |
[21] | FANG F , CHENG J , DING Z G . Joint energy efficient subchannel and power optimization for a downlink NOMA heterogeneous network[J]. IEEE Transactions on Vehicular Technology, 2019,68(2): 1351-1364. |
[22] | XU Y J , ZHAO X H , LIANG Y C . Robust power control and beamforming in cognitive radio networks:a survey[J]. IEEE Communications Surveys and Tutorials, 2015,17(4): 1834-1857. |
[23] | ZHOU X , LI Q . Energy efficiency for SWIPT in MIMO two-way amplify-and-forward relay networks[J]. IEEE Transactions on Vehicular Technology, 2018,67(6): 4910-4924. |
[24] | ZAPPONE Z , JORSWIECK E . Energy efficiency in wireless networks via fractional programming theory[J]. Foundations and Trends Communications and Information Theory, 2015,11(3): 185-396. |
[25] | XU Y J , LIU Y C , LI G Q ,et al. Robust uplink power allocation for two-tier heterogeneous networks[C]// 2017 9th International Conference on Wireless Communications and Signal Processing (WCSP). IEEE, 2017: 11-13. |
[26] | ZHANG H J , LIU H , CHENG J L . Downlink energy efficiency of power allocation and wireless backhaul bandwidth allocation in heterogeneous small cell networks[J]. IEEE Transactions on Communications, 2017,66(4): 1705-1716. |
[27] | XU Y J , HU Y , LI G Q . Robust resource allocation for heterogeneous wireless network:a worst-case optimization[J]. IET Communications, 2018,12(9): 1064-1071. |
[28] | 徐勇军, 赵晓晖 . 认知无线电系统的顽健资源分配算法[J]. 通信学报, 2014,35(4): 124-129. |
XU Y J , ZHAO X H . Robust resource allocation algorithm for cognitive radio system[J]. Journal on Communications, 2014,35(4): 124-129. |
[1] | Zhengyu ZHU, Jinlei XU, Gangcan SUN, Ning WANG, Wanming HAO. Secure beamforming design for IRS-assisted SWIPT Internet of things system [J]. Journal on Communications, 2021, 42(4): 185-193. |
[2] | Xiaorong ZHU,Peipei ZHANG. Fault detection and diagnosis method for heterogeneous wireless network based on GAN [J]. Journal on Communications, 2020, 41(8): 110-119. |
[3] | Yongjun XU,Hao XIE,Qianbin CHEN,Jinzhao LIN,Qilie LIU. Energy efficiency optimization algorithm for heterogeneous NOMA network based on imperfect CSI [J]. Journal on Communications, 2020, 41(7): 131-140. |
[4] | Zhirui HU. Terminal battery status information based fairness-aware SWIPT strategy [J]. Journal on Communications, 2020, 41(5): 112-119. |
[5] | Zhihong QIAN, Yinuo FENG, Jiani SUN, Xue WANG. Access selection algorithm for heterogeneous wireless network based on DA optimized fuzzy neural network [J]. Journal on Communications, 2020, 41(12): 118-127. |
[6] | Yongjun XU,Yang YANG,Qilie LIU,Qianbin CHEN,Jinzhao LIN. Robust power and subcarrier allocation algorithm for cognitive network based on interference efficiency maximization [J]. Journal on Communications, 2020, 41(1): 84-93. |
[7] | Xiaoqing DONG,Lianglun CHENG,Gengzhong ZHENG,Tao WANG. Spectrum resource allocation method of maximizing transmission rate in cognitive heterogeneous wireless networks [J]. Journal on Communications, 2019, 40(9): 124-135. |
[8] | Weijia LEI,Minghao DONG. Optimization and realization of SWIPT relay channel transmission rate based on rateless code [J]. Journal on Communications, 2019, 40(5): 98-107. |
[9] | Bo ZHANG,Kaizhi HUANG,Zhou ZHONG,Yajun CHEN. Artificial noise-aided robust secure information and power transmission scheme in heterogeneous networks with simultaneous wireless information and power transfer [J]. Journal on Communications, 2019, 40(3): 60-72. |
[10] | Miao CUI,Xin YU,Xueyi LI,Guangchi ZHANG,Yijun LIU,Fan LIN. Joint downlink and uplink resource allocation for multi-carrier SWIPT system [J]. Journal on Communications, 2019, 40(3): 206-214. |
[11] | Keming MA,Yajun CHEN,Xin HU,Kaizhi HUANG,Xinsheng JI. Opportunistic secure transmission scheme for simultaneous wireless information and power transfer [J]. Journal on Communications, 2019, 40(2): 70-81. |
[12] | Wei WANG,Xinrui LI,Liuguo YIN,Guoan ZHANG,Shibing ZHANG. Secure resource allocation in hybrid energy-harvesting relay and full-duplex receiver [J]. Journal on Communications, 2019, 40(1): 110-118. |
[13] | WANG Wei, LI Xinrui, YIN Liuguo, ZHANG Guoan, ZHANG Shibing. Secure resource allocation in hybrid energy-harvesting relay and full-duplex receiver [J]. Journal on Communications, 2018, 99(99): 1-. |
[14] | Yu-wei WANG,Min LIU,Bing-yi FANG. Survey on vertical handoff in heterogeneous wireless networks [J]. Journal on Communications, 2015, 36(Z1): 224-234. |
[15] | Bai DU,Hong-yan LI,Yan LONG. Network selection algorithm in heterogeneous wireless networks to minimize the maximum residual service time [J]. Journal on Communications, 2015, 36(8): 104-109. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
|