Outage Characterization of Large-Scale Wireless Cooperative Networks Based on SWIPT

doi:10.13190/j.jbupt.2018-057

JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM ›› 2018, Vol. 41 ›› Issue (6): 20-25.doi: 10.13190/j.jbupt.2018-057

• Papers • Previous Articles Next Articles

Outage Characterization of Large-Scale Wireless Cooperative Networks Based on SWIPT

YAO Yuan-yuan¹, LI Xue-hua¹, HUANG Sai², ZHU Zheng-yu³, XIANG Wei¹

1. School of Information and Communication Engineering, Beijing Information Science and Technology University, Beijing 100101, China;
2. School of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing 100876, China;
3. School of Information Engineering, Zhengzhou University, Zhengzhou 450001, China

Received:2018-04-04 Online:2018-12-28 Published:2018-12-24

Abstract

Abstract: The outage probability in a large-scale cooperative relaying system based on simultaneous wireless information and power transfer (SWIPT) is investigated. A relay-assisted cooperative transmission protocol is proposed in which the relays that can decode the signal from the sources and are located in a relaying area become the potential relays, and are dedicated to assist the information transmission from the sources to the receivers. The outage probability is analyzed and the comparison is made among the direct link, the relay-only link, and the cooperative link. Simulation results are provided to validate our theoretical analysis.

Key words: cooperative network, energy harvesting, outage probability, relay selection strategies

CLC Number:

TN914

YAO Yuan-yuan, LI Xue-hua, HUANG Sai, ZHU Zheng-yu, XIANG Wei. Outage Characterization of Large-Scale Wireless Cooperative Networks Based on SWIPT[J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2018, 41(6): 20-25.

References

[1] Chen Z, Cai L X, Cheng Y, et al. Sustainable cooperative communication in wireless powered networks with energy harvesting relay[J]. IEEE Transcations on Wireless Communications, 2017, 16(12):8175-8188.
[2] Lu X, Wang P, Niyato D, et al. Wireless networks with RF energy harvesting:A contemporary survey[J]. IEEE Communications Surveys and Tutorials, 2014, 17(2):757-789.
[3] Varshney L R. Transporting information and energy simultaneously[C]//Proc IEEE International Symposium on Information Theory, Toronto:[s. n.], 2008:1612-1616.
[4] Zhou X, Zhang R, Ho C K. Wireless information and power transfer:architecture design and rate-energy tradeoff[J]. IEEE Transcations on Communications, 2013, 61(11):4754-4767.
[5] Nasir A A, Zhou X, Durrani S, et al. Relaying protocols for wireless energy harvesting and information processing[J]. IEEE Transcations on Wireless Communications, 2013, 12(7):3622-3636.
[6] Liu Y, Wang X. Information and energy cooperation in OFDM relaying[C]//Proc of IEEE International Conference on Communications (ICC). London:[s. n.], 2015:5088-5098.
[7] Stoyan D, Kendall W, Mecke J. Stochastic geometry and its applications[M].[S. l.]:John Wiley and Sons, 1995.
[8] Huang K. Spatial throughput of mobile ad hoc networks powered by energy harvesting[J]. IEEE Transactions on Information Theory, 2013, 59(11):7597-7612.
[9] Lee S, Zhang R, Huang K. Opportunistic wireless energy harvesting in cognitive radio networks[J]. IEEE Transcations on Wireless Communications, 2013, 12(9):4788-4799.
[10] Krikidis I. Simultaneous information and energy transfer in large-scale networks with/without relaying[J]. IEEE Transcations on Communications, 2014, 62(3):900-912.
[11] Haenggi M. Stochastic geometry for wireless networks[M].[S. l.]:Cambridge University Press, 2012.
[12] Lou Y, Yue Q, Cheng J, et al. Exact BER analysis of selection combining for differential SWIPT relaying systems[J]. IEEE Signal Processing Letters, 2017, 24(8):1198-1202.

[1]	Kunming Dong bin shen Hui linJIANG. Outage Performance Analysis and Power Allocation Research of CR-NOMA System on Coordinated Direct and FD Relay Transmission [J]. Journal of Beijing University of Posts and Telecommunications, 2022, 45(6): 92-97.
[2]	LI Meiling, YANG Xiaoxia, CHENG Wenjie, LU Zhaoming. Physical Layer Security for CR-NOMA System in Vehicle-to-Everything [J]. Journal of Beijing University of Posts and Telecommunications, 2022, 45(1): 115-120.
[3]	GAO Xiao-na, LU Guang-yue, YE Ying-hui, ZAN Jin-mei. Throughput Fairness Guarantee in Cognitive Backscattering Networks [J]. Journal of Beijing University of Posts and Telecommunications, 2021, 44(6): 26-32.
[4]	CHEN Hai-lin, LEI Wei-jia. Power Control Algorithm under Nonlinear Battery Model in Communication Systems with Energy Harvesting [J]. Journal of Beijing University of Posts and Telecommunications, 2021, 44(5): 74-80.
[5]	WANG Hong-ming, YAO Yuan-yuan, Wei Xiang, LI Xue-hua. Performance Analysis of Narrowband Internet of Things Deployed in Poisson Cluster Process [J]. Journal of Beijing University of Posts and Telecommunications, 2021, 44(4): 109-114.
[6]	HE Zi-xuan, ZHANG Bi-ling, HANG Bing-qing, WANG Li. Aircraft Formation Networking in High Altitude Based on Terahertz Communications [J]. Journal of Beijing University of Posts and Telecommunications, 2021, 44(4): 102-108.
[7]	XUE Jian-bin, LIU Xing-xing, DING Xue-qian. Energy Efficiency Optimization Scheme Based on Energy Harvesting in Mobile Edge Computing [J]. Journal of Beijing University of Posts and Telecommunications, 2020, 43(5): 15-20.
[8]	WANG Ming-wei, LI Hui-zhen. Multi-Slot Energy Harvesting Wireless Communication over Nakagami-m Channel Fading [J]. Journal of Beijing University of Posts and Telecommunications, 2020, 43(4): 54-60.
[9]	LIU Zhi-chao, ZHAO Yi-sheng, GAO Jin-cheng, CHEN Zhong-hui. UAV-Assisted Time Division Power Allocation Strategy Based on RF Energy Harvesting [J]. Journal of Beijing University of Posts and Telecommunications, 2020, 43(3): 24-31.
[10]	LUO Yi, WANG Yu-ting, SHI Rong-hua, YAN Meng-chun, ZENG Hao. Secrecy Outage Probability Analysis of Underlay Cognitive Cooperative Relay Network with Energy Harvesting [J]. Journal of Beijing University of Posts and Telecommunications, 2020, 43(3): 105-111,124.
[11]	CHEN Pei-pei, LI Tao-shen, GE Zhi-hui, FANG Xing. Secure Beamforming Design for Full-Duplex Energy-Constrained Relaying Networks [J]. Journal of Beijing University of Posts and Telecommunications, 2020, 43(2): 59-65,79.
[12]	LIU Di-di, MA Li-na, SUN Hao-tian, HU Cong. Research on Dynamic Energy Management for the Base Station Supplied by Smart Grid with Time-Varying Price [J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2019, 42(5): 54-61.
[13]	LI Tao-shen, NING Qian-li, WANG Zhe. Dynamic Time Allocation Strategy of Opportunity Cooperative Relay System for Optimizing Transmission Performance [J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2019, 42(5): 36-41,99.
[14]	LIU Zhe. Adaptive Data Sampling Rate Adjustment Based on Large Deviation Theory in Wireless Sensor Networks [J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2018, 41(6): 129-136.
[15]	LI Mei-ling, TIAN Li-li, WANG An-hong, LU Zhao-ming, LIANG Jie. Research on Performance of Best Relay Based NOMA System with Multi-User [J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2018, 41(5): 120-125.

Outage Characterization of Large-Scale Wireless Cooperative Networks Based on SWIPT

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments