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2019 | OriginalPaper | Buchkapitel

10. Heterogeneous NOMA with Energy Cooperation

verfasst von : Bingyu Xu, Yue Chen, Yuanwei Liu

Erschienen in: Multiple Access Techniques for 5G Wireless Networks and Beyond

Verlag: Springer International Publishing

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Abstract

In this chapter, the problem of resource allocation in heterogeneous non-orthogonal multiple access (NOMA) with energy cooperation is discussed. In particular, the focus is on maximizing the energy efficiency and deriving its optimal user association and power control solution subject to users’ rate and energy constraints. The results confirm the proposed joint user association and power control scheme is capable of achieving higher energy efficiency compared with the conventional resource allocation schemes. This chapter is structured as follows. Section 10.1 presents a review of the related literature about NOMA heterogeneous networks and energy cooperation, respectively. Section 10.2 presents the system model and the formulation problem. After that, Sects. 10.3 and 10.4 describe the proposed resource allocation scheme and provide simulation results, respectively. Finally, Sect. 10.5 summarizes the chapter and presents the future works.

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Vorheriges Kapitel Full-Duplex Non-Orthogonal Multiple Access Networks

Nächstes Kapitel NOMA in Vehicular Communications

In real networks, the renewable energy generation rate is constant during a certain period, and the time scale of the UA and power control process is much shorter, typically less than several minutes [41, 42]. In addition, the amount of energy harvested by an MBS is usually larger than that at a PBS, since MBS can fit larger solar panel [42, 44].

D. Liu, L. Wang, Y. Chen, M. Elkashlan, K.K. Wong, R. Schober, L. Hanzo. User association in 5G networks: a survey and an outlook. IEEE Commun. Surv. Tutor. 18(2), 1018–1044 (2016)

Y. Liu, Z. Qin, M. Elkashlan, Z. Ding, A. Nallanathan, L. Hanzo, Non-orthogonal multiple access for 5g and beyond. Proc. IEEE 105(12), 2347–2381 (2017)CrossRef

W. Shin, M. Vaezi, B. Lee, D.J. Love, J. Lee, H.V. Poor, Non-orthogonal multiple access in multi-cell networks: Theory, performance, and practical challenges. IEEE Commun. Mag. 55(10), 176–183 (2017)CrossRef

Y. Xu, H. Sun, R. Q. Hu, Y. Qian, Cooperative non-orthogonal multiple access in heterogeneous networks, in Proceedings of IEEE GLOBECOM (San Diego, CA, USA, Dec 2015), pp. 1–6

J. Zhao, Y. Liu, K.K. Chai, A. Nallanathan, Y. Chen, Z. Han, Resource allocation for non-orthogonal multiple access in heterogeneous networks. In Proceedings of IEEE ICC (Paris, France, May 2017), pp. 1–6

J. Zhao, Y. Liu, K.K. Chai, A. Nallanathan, Y. Chen, Z. Han, Spectrum allocation and power control for non-orthogonal multiple access in hetnets. IEEE Trans. Wirel. Commun. 16(9), 5825–5837 (2017)CrossRef

Y. Liu, Z. Qin, M. Elkashlan, A. Nallanathan, J.A. McCann, Non-orthogonal multiple access in large-scale heterogeneous networks. IEEE J. Sel. Areas Commun. 35(12), 2667–2680 (2017)CrossRef

Q.T. Vien, T.A. Le, B. Barn, C.V. Phan, Optimising energy efficiency of non-orthogonal multiple access for wireless backhaul in heterogeneous cloud radio access network. IET Commun. 10(18), 2516–2524 (2016)CrossRef

J.G. Andrews, S. Buzzi, W. Choi, S.V. Hanly, A. Lozano, A.C.K. Soong, J.C. Zhang, What will 5g be? IEEE J. Sel. Areas Commun. 32(6), 1065–1082 (2014)

10.

D. Jiang, P. Zhang, Z. Lv, H. Song, Energy-efficient multi-constraint routing algorithm with load balancing for smart city applications. IEEE Internet Things J. 3(6), 1437–1447 (2016)CrossRef

11.

T. Han, N. Ansari, Powering mobile networks with green energy. IEEE Wirel. Commun. 21(1), 90–96 (2014)CrossRef

12.

O. Ozel, K. Tutuncuoglu, J. Yang, S. Ulukus, A. Yener, Transmission with energy harvesting nodes in fading wireless channels: optimal policies. IEEE J. Sel. Areas Commun. 29(8), 1732–1743 (2011)CrossRef

13.

Y. Guo, J. Xu, L. Duan, R. Zhang, Joint energy and spectrum cooperation for cellular communication systems. IEEE Trans. Commun. 62(10), 3678–3691 (2014)CrossRef

14.

B. Gurakan, O. Ozel, J. Yang, S. Ulukus, Energy cooperation in energy harvesting communications. IEEE Trans. Commun. 61(12), 4884–4898 (2013)CrossRef

15.

B. Gurakan, O. Ozel, J. Yang, S. Ulukus, Two-way and multiple-access energy harvesting systems with energy cooperation, in Proceedings of IEEE ASILOMAR (Pacific Grove, CA, USA, Nov. 2012), pp. 58–62

16.

B. Gurakan, O. Ozel, J. Yang, S. Ulukus, Energy cooperation in energy harvesting two-way communications. in Proceedings of IEEE ICC (Budapest, Hungary, June 2013), pp. 3126–3130

17.

K. Tutuncuoglu, A. Yener, Multiple access and two-way channels with energy harvesting and bi-directional energy cooperation. in Proceedings of IEEE ITA (San Diego, CA, USA, Feb 2013), pp. 1–8

18.

K. Tutuncuoglu, A. Yener, Cooperative energy harvesting communications with relaying and energy sharing. in Proceedings of IEEE ITW (Sevilla, Spain, Sept 2013), pp. 1–5

19.

D. Wang, P. Ren, Y. Wang, Q. Du, L. Sun, Energy cooperation for reciprocally-benefited spectrum access in cognitive radio networks, in Proceedings of IEEE GlobalSIP (Atlanta, GA, USA, Dec 2014), pp. 1320–1324

20.

Y.K. Chia, S. Sun, R. Zhang, Energy cooperation in cellular networks with renewable powered base stations. IEEE Trans. Wirel. Commun. 13(12), 6996–7010 (2014)CrossRef

21.

J. Xu, L. Duan, R. Zhang, Cost-aware green cellular networks with energy and communication cooperation. IEEE Commun. Mag. 53(5), 257–263 (2015)CrossRef

22.

J. Xu, R. Zhang, Comp meets smart grid: a new communication and energy cooperation paradigm. IEEE Trans. Veh. Technol. 64(6), 2476–2488 (2015)MathSciNetCrossRef

23.

S. Lakshminarayana, T.Q.S. Quek, H.V. Poor, Cooperation and storage tradeoffs in power grids with renewable energy resources. IEEE J. Sel. Areas Commun. 32(7), 1386–1397 (2014)CrossRef

24.

Y. Zhang, H.M. Wang, T.X. Zheng, Q. Yang, Energy-efficient transmission design in non-orthogonal multiple access. IEEE Trans. Veh. Technol. 66(3), 2852–2857 (2017)CrossRef

25.

Z. Yang, Z. Ding, P. Fan, N. Al-Dhahir, A general power allocation scheme to guarantee quality of service in downlink and uplink NOMA systems. IEEE Trans. Wireless Commun. 15(11), 7244–7257 (2016)CrossRef

26.

J. Cui, Z. Ding, P. Fan, A novel power allocation scheme under outage constraints in NOMA systems. IEEE Signal Process. Lett. 23(9), 1226–1230 (2016)CrossRef

27.

F. Fang, H. Zhang, J. Cheng, V.C.M. Leung, Energy-efficient resource allocation for downlink non-orthogonal multiple access network. IEEE Trans. Commun. 64(9), 3722–3732 (2016)CrossRef

28.

Z. Wei, D.W.K. Ng, J. Yuan, Power-efficient resource allocation for MC-NOMA with statistical channel state information, in Proceedings of IEEE GLOBECOM (Washington, DC, USA, Dec 2016), pp. 1–7

29.

Y. Sun, D.W.K. Ng, Z. Ding, R. Schober, Optimal joint power and subcarrier allocation for MC-NOMA systems, in Proceedings of IEEE GLOBECOM (Washington, DC, USA, Dec 2016), pp. 1–6

30.

B. Xu, Y. Chen, J.R. Carrión, T. Zhang, Resource allocation in energy-cooperation enabled two-tier noma hetnets toward green 5g. IEEE J. Sel. Areas Commun. 35(12), 2758–2770 (2017)CrossRef

31.

Y. Saito, Y. Kishiyama, A. Benjebbour, T. Nakamura, A. Li, K. Higuchi, Non-orthogonal multiple access (NOMA) for cellular future radio access, in Proceedings of IEEE VTC (Spring) (Dresden, Germany, June 2013) pp. 1–5,

32.

Z. Ding, F. Adachi, H.V. Poor, The application of MIMO to non-orthogonal multiple access. IEEE Trans. Wirel. Commun. 15(1), 537–552 (2016)CrossRef

33.

S. Boyd, A. Mutapcic. Subgradient Methods. Stanford University (2008)

34.

K. Yasuda, L. Hu, Y. Yin, A grouping genetic algorithm for the multi-objective cell formation problem. Int. J. Prod. Res. 43(4), 829–853 (2005)CrossRef

35.

D.E. Goldberg, K. Deb, A Comparative Analysis of Selection Schemes Used in Genetic Algorithms (Morgan Kaufmann Publishers Inc., San Mateo, CA, 1991)CrossRef

36.

M. Grant, S. Boyd. Cvx: Matlab software for disciplined convex programming

37.

Z. Han, D. Niyato, W. Saad, T. Baar, A. Hjrungnes, Game Theory in Wireless and Communication Networks: Theory, Models, and Applications (Cambridge University, Press, 2012)

38.

M. Kobayashi, G. Caire, An iterative water-filling algorithm for maximum weighted sum-rate of Gaussian MIMO-BC. IEEE J. Sel. Areas Commun. 24(8), 1640–1646 (2006)CrossRef

39.

S. Zhang, N. Zhang, S. Zhou, J. Gong, Z. Niu, X.S. Shen, Energy-aware traffic offloading for green heterogeneous networks. IEEE J. Sel. Areas Commun. 34(5), 1116–1129 (2016)CrossRef

40.

M. Zheng, P. Pawelczak, S. Stanczak, H. Yu, Planning of cellular networks enhanced by energy harvesting. IEEE Commun. Lett. 17(6), 1092–1095 (2013)CrossRef

41.

K. Son, H. Kim, Y. Yi, B. Krishnamachari, Base station operation and user association mechanisms for energy-delay tradeoffs in green cellular networks. IEEE J. Sel. Areas Commun. 29(8), 1525–1536 (2011)CrossRef

42.

D. Liu, Y. Chen, K.K. Chai, T. Zhang, M. Elkashlan, Two-dimensional optimization on user association and green energy allocation for HetNets with hybrid energy sources. IEEE Trans. Commun. 63(11), 4111–4124 (2015)CrossRef

43.

A. Ghosh, N. Mangalvedhe, R. Ratasuk, B. Mondal, M. Cudak, E. Visotsky, T.A. Thomas, J.G. Andrews, P. Xia, H.S. Jo, H.S. Dhillon, T.D. Novlan, Heterogeneous cellular networks: from theory to practice. IEEE Commun. Mag. 50(6), 54–64 (2012)CrossRef

44.

T. Han, N. Ansari, Green-energy aware and latency aware user associations in heterogeneous cellular networks, in Proceedings of IEEE GLOBECOM (Atlanta, GA, USA, Dec. 2013), pp. 4946–4951

45.

D. Tse, P. Viswanath, Fundamentals of Wireless Communication (Cambridge University Press, Cambridge, U.K., 2005)CrossRef

46.

D.W.K. Ng, E.S. Lo, R. Schober, Energy-efficient resource allocation in ofdma systems with large numbers of base station antennas. IEEE Trans. Wirel. Commun. 11(9), 3292–3304 (2012)CrossRef

47.

Z. Yang, Z. Ding, P. Fan, G.K. Karagiannidis, On the performance of non-orthogonal multiple access systems with partial channel information. IEEE Trans. Commun. 64(2), 654–667 (2016)CrossRef

48.

Z. Ding, R. Schober, H.V. Poor, A general MIMO framework for NOMA downlink and uplink transmission based on signal alignment. IEEE Trans. Wirel. Commun. 15(6), 4438–4454 (2016)CrossRef

Titel: Heterogeneous NOMA with Energy Cooperation
verfasst von: Bingyu Xu
Yue Chen
Yuanwei Liu
Verlag: Springer International Publishing
Buch: Multiple Access Techniques for 5G Wireless Networks and Beyond
Print ISBN: 978-3-319-92089-4

Electronic ISBN: 978-3-319-92090-0

Copyright-Jahr: 2019
DOI: https://doi.org/10.1007/978-3-319-92090-0_10

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