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Wireless Personal Communications

Erschienen in:

08.07.2017

A Joint CAC and Dynamic Bandwidth Allocation Technique for Capacity and QoS Analysis in Heterogeneous LTE based BWA Network: Few Case Studies

verfasst von: Arijeet Ghosh, Iti Saha Misra

Erschienen in: Wireless Personal Communications | Ausgabe 2/2017

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Abstract

Broadband Wireless Access (BWA) network such as LTE brings heterogeneity in terms of different radio access technologies, multi-tier architectures and co-implementation of various protocols to support various types of services with desired Quality of Service (QoS) for the subscribers. However, due to limited bandwidth and high demand of LTE-BWA networks, effective network planning is required to utilize the available radio resources in an efficient way. To achieve this target, this paper aims to implement a unique Radio Resource Management scheme for a heterogeneous LTE based BWA network (BWA Het-Nets) which consists of Small cells along with Macro cells. The proposed analysis has two components: (1) Received Signal Strength (RSS) based CAC policy; and (2) Dynamic Bandwidth Allocation (DBA) scheme for QoS provisioning. The novelty of this work lies on the integration of the RSS based CAC policy with DBA scheme for improved performance in terms of different QoS parameters like New Call Blocking Probability (NCBP), Hand off Call Dropping Probability (HCDP) and Bandwidth Utilization (BU). A Continuous Time Markov Chain based mathematical model is also developed for the realistic analysis of those QoS parameters. The Joint CAC and DBA scheme (JCAC-DBA) in two-tier LTE BWA Het-Nets significantly improves NCBP, HCDP, BU and overall capacity of the network under different combinations of macro/small cells for heterogeneous multimedia services.

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Hossain, E. (2007). In Fifth Annual Conference on Communication Networks and Services Research (CNSR’07) (pp. 3–4). IEEE.

Eklund, C., Marks, R. B., Stanwood, K. L., Wang, S., et al. (2002). IEEE standard 802.16: A technical overview of the WirelessMAN air interface for broadband wireless access. IEEE Communications Magazine, 40(6), 98.CrossRef

Ghosh, A., Ratasuk, R., Mondal, B., Mangalvedhe, N., & Thomas, T. (2010). LTE-advanced: Next-generation wireless broadband technology (invited paper). IEEE Wireless Communications, 17(3), 10.CrossRef

Bjerke, B. A. (2011). LTE-advanced and the evolution of LTE deployments. IEEE Wireless Communications, 18(5), 4.CrossRef

Lee, H., Vahid, S., & Moessner, K. (2014). A survey of radio resource management for spectrum aggregation in LTE-advanced. IEEE Communications Surveys & Tutorials, 16(2), 745.CrossRef

Alasti, M., Neekzad, B., Hui, J., & Vannithamby, R. (2010). Quality of service in WiMAX and LTE networks. IEEE Communications Magazine, 48(5), 104.CrossRef

Chowdhury, P., Misra, I. S., & Sanyal, S. K. (2010). An integrated call admission control and uplink packet scheduling mechanism for QoS evaluation of IEEE 802.16 BWA networks. Canadian Journal on Multimedia and Wireless Networks, 1(3), 14.

Cicconetti, C., Lenzini, L., Mingozzi, E., & Eklund, C. (2006). Quality of service support in IEEE 802.16 networks. IEEE Network, 20(2), 50.CrossRef

Sun, J., Yao, Y., & Zhu, H. (2006) In 2006 IEEE 63rd Vehicular Technology Conference (vol. 3, pp. 1221–1225). IEEE.

10.

Shen, Z., Papasakellariou, A., Montojo, J., Gerstenberger, D., & Xu, F. (2012). Overview of 3GPP LTE-advanced carrier aggregation for 4G wireless communications. IEEE Communications Magazine, 50(2), 122.CrossRef

11.

Chang, M. J., Abichar, Z., & Hsu, C. Y. (2010). WiMAX or LTE: Who will lead the broadband mobile internet? IT Professional Magazine, 12(3), 26.CrossRef

12.

Pareit, D., Lannoo, B., Moerman, I., & Demeester, P. (2012). The history of WiMAX: A complete survey of the evolution in certification and standardization for IEEE 802.16 and WiMAX. IEEE Communications Surveys & Tutorials, 14(4), 1183.CrossRef

13.

Eberle, D. (2010). LTE vs. WiMAX 4th generation telecommunication networks. Berlin Institute of Technology, Germany.

14.

Ball, C., & Panel, E. (2007). LTE and wimax technology and performance comparison. Nokia Siemens Networks.

15.

Yi, L., Miao, K., & Liu, A. (2011). In 2011 13th International Conference on Advanced Communication Technology (ICACT) (pp. 654–658). IEEE.

16.

Hindustan Times. (2014). http://www.hindustantimes.com/business/india-to-overtake-us-in-smartphones-by-2016/story-2wyxx9snCeblwMk00GlqZO.html.

17.

TOI, T. (2014). http://timesofindia.indiatimes.com/tech/tech-news/India-to-be-second-largest-smartphone-market-by-2016-eMarketer/articleshow/45603156.cms.

18.

Ericsson. (2016). Ericsson Mobility Report. https://www.ericsson.com/assets/local/mobility-report/documents/2016/ericsson-mobility-report-november-2016.pdf.

19.

Piamrat, K., Ksentini, A., Bonnin, J. M., & Viho, C. (2011). Radio resource management in emerging heterogeneous wireless networks. Computer Communications, 34(9), 1066.CrossRef

20.

Landstrom, S., Murai, H., & Simonsson, A. (2011). In 2011 IEEE International Conference on Communications Workshops (ICC) (pp. 1–5). IEEE.

21.

Nokia. (2015). Nokia small cells-innovative ways to expand coverage and capacity for the future. http://resources.alcatel-lucent.com/asset/200247.

22.

Bian, D. R., & Yan, Q. (2014). Small cells big opportunities: A huawei white paper. www.huawei.com/ilink/en/download/HW_330984.

23.

Nokia. Outdoor 3G/LTE small cells deployment strategy: “The race to the pole”. http://resources.alcatel-lucent.com/asset/200206.

24.

Barbieri, A., Damnjanovic, A., Ji, T., Montojo, J., Wei, Y., Malladi, D., et al. (2012). LTE femtocells: System design and performance analysis. IEEE Journal on Selected Areas in Communications, 30(3), 586.CrossRef

25.

Damnjanovic, A., Montojo, J., Wei, Y., Ji, T., Luo, T., Vajapeyam, M., et al. (2011). A survey on 3GPP heterogeneous networks. IEEE Wireless Communications, 18(3), 10.CrossRef

26.

Huang, L., Zhou, Y., Han, X., Wang, Y., Qian, M., & Shi, J. (2013). In 2013 IEEE Wireless Communications and Networking Conference (WCNC) (pp. 2289–2293). IEEE.

27.

Hughes, M., Jovanovic, V. M. (2012). In Vehicular Technology Conference (VTC Fall), 2012 IEEE (pp. 1–6). IEEE.

28.

Zheng, Z., Zhang, X., Cai, L. X., Zhang, R., & Shen, X. (2014). Sustainable communication and networking in two-tier green cellular networks. IEEE Wireless Communications, 21(4), 47.CrossRef

29.

Chowdhury, M. Z., Jang, Y. M., & Haas, Z. J. (2010). arXiv preprint arXiv:1009.2368.

30.

Omheni, N., Gharsallah, A., Zarai, F., & Obaidat, M. S. (2014). In 2014 IEEE Global Communications Conference (pp. 112–117). IEEE.

31.

Zarai, F., Ali, K. B., Obaidat, M. S., & Kamoun, L. (2014). Adaptive call admission control in 3GPP LTE networks. International Journal of Communication Systems, 27(10), 1522.CrossRef

32.

Chowdhury, P., Misra, I. S., & Sanyal, S. K. (2012). arXiv preprint arXiv:1204.1614.

33.

Fujitsu. (2013). High-capacity indoor wireless solutions: Picocell or femtocell? Tech. rep., Fujitsu Network Communications Inc.

34.

ETSI. (2010). Evolved universal terrestrial radio access (e-utra); radio frequency (RF) requirements for LTE pico node B (3GPP TR 36.931) version 9.0.0. release 9. Tech. rep., ETSI.

35.

Chowdhury, P., Kundu, A., Misra, I. S., & Sanyal, S. K. (2012). arXiv preprint arXiv:1207.2607.

Titel: A Joint CAC and Dynamic Bandwidth Allocation Technique for Capacity and QoS Analysis in Heterogeneous LTE based BWA Network: Few Case Studies
verfasst von: Arijeet Ghosh
Iti Saha Misra
Publikationsdatum: 08.07.2017
Verlag: Springer US
Erschienen in: Wireless Personal Communications / Ausgabe 2/2017
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-017-4637-x

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