Interference management via access control and mobility prediction in two-tier heterogeneous networks

Zhu Xiao; Jie Chen; Dong Wang; Ren-fa Li; Ke-chu Yi

doi:10.1007/s11771-014-2288-6

Journal of Central South University ›› 2014, Vol. 21 ›› Issue (8) : 3169 -3177. DOI: 10.1007/s11771-014-2288-6

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Interference management via access control and mobility prediction in two-tier heterogeneous networks

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Abstract

Two-tier heterogeneous networks (HetNets), where the current cellular networks, i.e., macrocells, are overlapped with a large number of randomly distributed femtocells, can potentially bring significant benefits to spectral utilization and system capacity. The interference management and access control for open and closed femtocells in two-tier HetNets were focused. The contributions consist of two parts. Firstly, in order to reduce the uplink interference caused by MUEs (macrocell user equipments) at closed femtocells, an incentive mechanism to implement interference mitigation was proposed. It encourages femtocells that work with closed-subscriber-group (CSG) to allow the interfering MUEs access in but only via uplink, which can reduce the interference significantly and also benefit the marco-tier. The interference issue was then studied in open-subscriber-group (OSG) femtocells from the perspective of handover and mobility prediction. Inbound handover provides an alternative solution for open femtocells when interference turns up, while this accompanies with PCI (physical cell identity) confusion during inbound handover. To reduce the PCI confusion, a dynamic PCI allocation scheme was proposed, by which the high handin femtocells have the dedicated PCI while the others share the reuse PCIs. A Markov chain based mobility prediction algorithm was designed to decide whether the femtocell status is with high handover requests. Numerical analysis reveals that the UL interference is managed well for the CSG femtocell and the PCI confusion issue is mitigated greatly in OSG femtocell compared to the conventional approaches.

Keywords

femtocell / macrocell / interference management / heterogeneous networks / access control / handover / mobility prediction

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Zhu Xiao, Jie Chen, Dong Wang, Ren-fa Li, Ke-chu Yi. Interference management via access control and mobility prediction in two-tier heterogeneous networks. Journal of Central South University, 2014, 21(8): 3169-3177 DOI:10.1007/s11771-014-2288-6

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	ChandrasekharV, AndrewsJ, GathererA. Femtocell networks: A survey [J]. IEEE Communications magazine, 2008, 46(9): 59-67

[2]	AndrewsJ G, ClaussenH, DohlerM, RanganS, ReedM C. Femtocells: Past, present, and future [J]. IEEE JSAC on Femtocellular Networks, 2012, 30(3): 497-508

[3]	LiuJ, KouT-y, ChenQ, SheraliH D. Femtocell base station deployment in commercial buildings: A global optimization approach [J]. IEEE Journal on Selected Areas in Communications, 2012, 30(3): 652-663

[4]	GhoshA, MangalvedheN, RatasukR, MondalB. Heterogeneous cellular networks: From theory to practice [J]. IEEE Communications magazine, 2012, 50(6): 54-64

[5]	De La RocheG, ValcarceA, Lopez-PerezD, ZhangJ. Access control mechanisms for femtocells [J]. IEEE Communications Magazine, 2010, 48(1): 33-39

[6]	SonK, LeeS, YungY, SongChong. REFIM: A practical interference management in heterogeneous wireless access networks [J]. IEEE Journal on Selected Areas in Communications, 2011, 29(6): 1260-1272

[7]	SaquibN, HossainE, LongB-l, DongI-kim. Interference management in OFDMA femtocell networks: Issues and approaches [J]. IEEE Wireless Communications Mag, 2012, 19(3): 86-95

[8]	3GPP. Evolved universal terrestrial radio access (E-UTRA). Radio resource control (RRC) [S].

[9]	Interference Management In Umis Femtocells (Index number: 009) [EB/OL], [2013-04-19]. http://smallcellforum.org/smallcellforum/resources-white-papers

[10]	SunY-z, JoverR P, WangX-dong. Uplink interference mitigation for ofdma femtocell networks [J]. IEEE Trans Wireless Commun, 2010, 11(2): 3798-3809

[11]	YavuzM, MeshkatiF, NandaS, PokhariyalA, JohnsonN, RaghothamanB, RichardsonA. Interference management and performance analysis of UMTS/HSPA + femtocells [J]. IEEE Communications Magazine, 2009, 47(9): 102-109

[12]	ChenY, ZhangJ, ZhangQ. Utility-aware refunding framework for hybrid access femtocell network [J]. IEEE Trans on Wireless Communications, 2012, 11(5): 1688-1697

[13]	GolaupA, MustaphaM, PatanapongpibulL B. Femtocell access control strategy in UMTS and LTE [J]. IEEE Communications Magazine, 2009, 47(9): 117-123

[14]	DamnjanovicA, MontojoJ, WeiY, JiT-f, LuoT, VajapeyamM, YooT, SongO, MalladiD. A survey on 3GPP heterogeneous networks [J]. IEEE Wireless Communications Magazine, 2011, 18(3): 10-21

[15]	Interference Management in UMIS Femtocells (lndex number: 003) [EB/OL], [2013-04-19]. http://smallcellforum.org/smallcellforum/resources-white-papers

[16]	ChandrasekharV, AndrewsJ G. Uplink capacity and interference avoidance for two-tier Femtocell networks [J]. IEEE Trans on Wireless Communications, 2009, 8(7): 3498-3509

[17]	ChuX-l, WuY-h, Lopez-perezD, TaoX-feng. On providing downlink services in collocated spectrum-sharing macro and femto networks [J]. IEEE Trans, Wireless Commun, 2011, 10(12): 4306-4315

[18]	LeeH Y, LinY B. A Cache scheme for femtocell reselection [J]. IEEE Communications Letters, 2010, 14(1): 27-29

[19]	HuangC J, ChenP-c, GuanC-t, LiaoJ-jian. A probabilistic mobility prediction based resource management scheme for WiMAX femtocells [C]. Proc International Conference on Measuring Technology and Mechatronics Automation (ICMTMA’10), 2010, Changsha, ICMTMA: 295-300

[20]	UlvanA, BestakR, UlvanM. Handover scenario and procedure in LTE-based femtocell networks [C]. Proc the 4th International Conference on Mobile Ubiquitous Computing, Systems, Services and Technologies (UBICOMM’10), 2010, Florence, Italy, UBICOMM: 1-6

[21]	Abu-GhazalehH, AlfaA S. Application of mobility prediction in wireless networks using Markov renewal theory [J]. IEEE Trans on Vehicular Technology, 2010, 59(2): 788-802

[22]	DamnjanovicA, MontojoJ, ChoJ, JiHyoungju. UE’s role in LTE advanced heterogeneous networks [J]. IEEE Commun Mag, 2012, 50(2): 164-176

[23]	JoH S, MunC, MoonJ. Interference mitigation using uplink power control for two-tier Femtocell networks [J]. IEEE Trans on Wireless Communications, 2009, 8(10): 4906-4910

[24]	SiH-b, WangY, XuanJ, ShanX-ming. Mobility prediction in cellular network using hidden markov model [C]. 7th IEEE Consumer Communications and Networking Conference (CCNC), 2010, Las Vegas, NV USA, CCNC: 1-5