Handover vertical y convergencia hacia IP como factores clave del desarrollo de las redes 4G

Authors

  • Francisco Javier González Páez Universidad Nacional de Colombia
  • Jorge Eduardo Ortiz Triviño Universidad Nacional de Colombia

DOI:

https://doi.org/10.15332/iteckne.v7i2.2724

Keywords:

4G networks, Vertical handoff, Vertical handover, Mobile IP

Abstract

This paper describes what the 4G networks are and depicts a technologies’ general map of its development. Furthermore it shows two topics that are important in these networks’ development. These topics are vertical handover and IP convergence. The depicted survey by this paper shows the state of the art and the background of these topics that generate a useful mental map due to technologies’ variety that is converging in the 4G scheme.

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Author Biographies

Francisco Javier González Páez, Universidad Nacional de Colombia

MsC(c) Ingenieria de Telecomunicaciones, Universidad Nacional de Colombia Bogotá, Colombia

Jorge Eduardo Ortiz Triviño, Universidad Nacional de Colombia

MsC en Estadística MsC en ingeniería de Telecomunicaciones. PhD (c) en Ingeniería de Sistemas, Ms en Filosofía Universidad Nacional de Colombia, Bogotá, Colombia

References

[1] Mishra, A. R., “Advanced Cellular Networks planning and Optimisation”, John Wiley & Sons Ltd (ed), 2007.

[2] Sun, J., Sauvola, J., Howie, D., “Features in Future: 4G Visions from a Technical Perspective”, IEEE 2001.

[3] Janevski, T., “5G Mobile Phone Concept”, IEEE, 2009.

[4] Li, X., Gani, A., Salleh, R., Zakaria, O., “The Future of Mobile Wireless Communication Networks”, International Conference on Communication Software and Networks, 2009

[5] Eastwood, L., Migaldi, S., Xie, Q., Gupta, V., “Mobility Using IEEE 802.21 In A Heterogeneous IEEE 802.16/802.11-Based, IMT-Advanced (4g) Network”, IEEE Wireless Communications, Abril de 2008, pp. 26-34.

[6] Jamil, M., Shaikh, S. P., Shahzad, M., Awais, Q., “4G: The Future Mobile Technology”, IEEE.

[7] Rec. ITU-R M1645, “Framework and overall objectives of the future development of IMT-2000 and systems beyond IMT-2000”, 2003.

[8] Govil, J., Govil, J., “4G: Functionalities Development and an Analysis of Mobile Wireless Grid”, First International Conference on Emerging Trends in Engineering and Technology, 2008, pp. 270-275.

[9] Khan, A. H., Qadeer, M. A., Ansari, J. A., Waheed, S., “4G as a Next Generation Wireless Network”, International Conference on Future Computer and Communication, IEEE, 2009 pp. 334-338.

[10] Rouffet, D., Sehier, P., “Convergence and Competition on the Way towards 4G”, IEEE, 2007.

[11] Wang, Y., Qiao, X., Li, X., Meng, L., “The ServiceContext Information Processing Mechanism in B3G/4G”, International Conference on Computer Science and Software Engineering, 2008, pp.1174-1177.

[12] Frattasi, S., Fathi, H., Gimmler, A., Fitzek, F., Prasad, R., “Designing Socially Robust 4G Wireless Services”, IEEE Technology and Society Magazine | summer 2006, pp. 51-64.

[13] Choi, J, “4G Solution for Convergence?”, IEEE, 2006.

[14] Murota, K. NTT DoCoMo, “Mobile communications trends in Japan and NTT DoCoMo’s activities towards 21st century”, ACTS Mobile Summit99, Sorrento, Italy, June 1999.

[15] Park, Y., Park, T., “A Survey of Security Threats on 4G Networks”, Workshop on Security and Privacy in 4G Networks, IEEE, 2007.

[16] Govil, J., Govil, J., “An Empirical Feasibility Study of 4G’s Key Technologies”, IEEE, 2008, pp. 267- 270.

[17] Xiuhua, Q., Chuanhui, Q., Li, W., “A Study of Some Key Technologies of 4G System”, IEEE 2008.

[18] Sgora, A., Vergados, D. D., “Handoff Prioritization and Decision Schemes in Wireless Cellular Networks: a Survey”, IEEE Communications Surveys & Tutorials, vol. 11, no. 4, fourth quarter 2009, pp.57-77.

[19] Goyal, P., Saxena, S. K., “A Dynamic Decision Model for Vertical Handoffs across Heterogeneous Wireless Networks”, World Academy of Science, Engineering And Technology Volume 31, ISSN 1307-6884, Julio 2008, pp. 677-682.

[20] Lott, M., Siebert, M., Bonjour, S., von Hugo, D., Weckerle, M., “Interworking of WLAN and 3G systems”, IEE Proc.-Commun., Vol. 151, No. 5, Octubre 2004, pp. 507-513.

[21] Syuhadal, M. Z. A., Mahamod, I., Firuz, W. A. W. N. S., “Performance Evaluation of Vertical Handoff in Fourth Generation (4G) Networks Model”, 6th National Conference on Telecommunication Technologies e IEEE 2008 2nd Malaysia Conference on Photonics, 26-27 August, 2008, pp. 392-398.

[22] Lee, J. H., Lee, S., K., Song, J. S., “An enhanced TCP for upward vertical handoff in integrated WLAN and cellular networks”, Int. J. Commun. Syst. 2008, pp. 901–921.

[23] Ho, P., Wang, Y., Hou, F., “Shen, S., A Study on Vertical Handoff for Integrated WLAN and WWAN with Micro-Mobility Prediction”, IEEE, 2006.

[24] Hasib, A., Fapojuwo, A.O., “Mobility model for heterogeneous wireless networks and its application in common radio resource management”, IET Commun., 2008, Vol. 2, No. 9, pp. 1186– 1195.

[25] Chang, B., Chen, J., Hsieh C. Liang, Y., “Markov Decision Process-based Adaptive Vertical Handoff with RSS Prediction in Heterogeneous Wireless Networks”, WCNC, IEEE, 2009.

[26] Stevens-Navarro, E., Lin, Y., “An MDP-Based Vertical Handoff Decision Algorithm for Heterogeneous Wireless Networks”, IEEE Transactions On Vehicular Technology, vol. 57, no. 2, Marzo 2008, pp. 1243-1254.

[27] Sepúlveda, L. M., “Desarrollo de un algoritmo para handoff vertical entre redes IEEE802.16 WWAN y UMTS”, Tesis presentada a la Universidad Nacional de Colombia para optar al grado de Maestría en ingeniería de Telecomunicaciones, 2008.

[28] Zeng, W., “Handover Decision Using Fuzzy MADM in Heterogeneous Networks”, In the Proc. 2004 IEEE Wireless Communications and Networking Conference (WCNC 04), vol. 2, Atlanta, Georgia, USA, Marzo 2004, pp. 653-658.

[29] Sur, A., Sicker, D. C., “Multi Layer Rules Based Framework for Vertical Handoff: A novel approach to trigger Vertical Handoff in multihomed devices”, IEEE, 2005.

[30] Lincken, S. J., “Vertical handover policies for common radio resource management”, International Journal of Communication Systems, March 15, 2005, pp. 528-543.

[31] Wu, J., Yang, S., Hwang, B., “A terminal-controlled vertical handover decision scheme in IEEE 802.21-enabled heterogeneous wireless networks”, International Journal of Communication Systems, January 21, 2009, pp. 819-834.

[32] Zhang, Y., Zhuang, W., Saleh, A., “Vertical Handoff between 802.11 and 802.16 Wireless Access Networks”, 2008.

[33] Lee C. W., “A framework of handoffs in wireless overlay networks based on mobile IPv6”, IEEE JSAC, 23(11):2118-2128, November, 2005.

[34] Koodli, R., “Fast Handovers for Mobile IPv6”, draft-ietf-mipship-fmipv6-rfc4068bis-02.txt, Julio 2007.

[35] Makaya, C., Pierre, S., “Efficient Handoff Scheme for Heterogeneous IPv6-based Wireless Networks”, IEEE, 2007.

[36] Estandar IEEE 802.21, 2008.

[37] Liao, W. K., Chen, Y. C., “Supporting vertical handover between universal mobile telecommunications system and wireless LAN for real-time services”, IET Commun., 2008, 2, (1), pp. 75–8.

[38] Yang, M., Cheon, K., Park, A., Kim, S., “3GEWLAN Vertical Handover Experience using Fast Mobile IPv6”, IEEE, 2008.

[39] ETSI TR 101 957 v1.1.1 (2001-08): ‘Broadband Radio Access Networks (BRAN), HIPERLAN TYPE 2, Requirements and Architectures for Interworking between HIPERLAN/2 and 3rd Generation Cellular Systems’

[40] Shalini Punithavathani, D., Sankaranarayanan, K., “IPv4/IPv6 Transition Mechanisms”, European Journal of Scientific Research, ISSN 1450- 216X Vol.34 No.1 (2009), pp.110-124.

[41] Hoque, K. Md. R., Haque, R. R., Hossain, Md. A., Farazi, M.S.F., Hossain, G., “Modeling and Performance of TCP in a MCCDMA System for 4G Communications”, IEEE, 2007.

[42] Chan, A. C., Tsang, D. H., Gupta, S., “Impacts of Handoff on TCP Performance in Mobile Wireless Computing”, Conferencia Internacional IEEE sobre Comunicaciones Inalámbricas Personales realizada en Mumbai, India, entre el 17 y 19 de Diciembre de 1997, pp. 184-188.

[43] Montavont, N., Noel, T., “Handover Management for Mobile Nodes in IPv6 Networks”, IEEE, 2002.

[44] Casetti, C., Gerla, M., Mascolo, S., Sanadidi, M. Y., Wang, R., “TCP Westwood: end-to-end congestion control for wired/wireless networks. Wireless Networks”, 8(5):467–479, 2002.

[45] Goff, T., Moronski, J., Phatak, D. S., Gupta, V., “Freeze-TCP: A true end-to-end TCP enhancement mechanism for mobile environments”, In Proc. IEEE INFOCOM, 2000.

[46] Ludwig R., Katz, R. H., “The Eifel algorithm: Making TCP robust against spurious retransmissions”, ACM SIGCOMM Comput. Commun. Rev., 30(1):30–36, 2000.

[47] Chouly, A., Brajal, A., Jourdan, S., “Orthogonal Multicarrier Techniques Applied to Direct Sequence Spread Spectrum CDMA Systems”,’ Proc. of IEEE GLOBECOM’93, Houston, TX, Noviembre 1993. pp. 1723–1728.

[48] Chan, M. C., Ramjee, R., “Improving TCP/IP performance over third generation wireless networks”, In Proc. IEEE INFOCOM, Hong Kong, Mar. 2004.

[49] Chan, M. C., Ramjee, R., “TCP/IP performance over 3G wireless links with rate and delay variation”, In Proc. ACM MOBICOM, Atlanta, USA, Sep. 2002.

[50] Wang, N., Wang, Y., Chang, S., “A Fast Adaptive Congestion Control Scheme for Improving TCP Performance during Soft Vertical Handoff”, IEEE, 2007

[51] Chen, L., Yang, G., Sun, T., Sanadidi, M. Y., Gerla, G., “Enhancing QoS Support for Vertical Handoffs Using Implicit/Explicit Handoff Notifications”, 2nd Int’l Conf. on Quality of Service in Heterogeneous Wired/Wireless Networks (QShine’05), IEEE,2005.

Published

2013-10-24

How to Cite

González Páez, F. J., & Ortiz Triviño, J. E. (2013). Handover vertical y convergencia hacia IP como factores clave del desarrollo de las redes 4G. ITECKNE, 7(2), 191–198. https://doi.org/10.15332/iteckne.v7i2.2724

Issue

Section

Research and Innovation Articles