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Context-Aware Handover Decision in an Enhanced Media Independent Handover Framework

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Abstract

Recent developments in heterogeneous mobile networks emphasize the necessity of more intelligent and context-aware handover decisions. However, the complexity and overhead of collecting and managing context information are the main difficulties in context-aware handovers. Media independent handover (MIH) framework which has been proposed by IEEE 802.21 only provides static context of access networks through its information service. This paper elaborates the idea of handoff-aware network context gathering for renewal of dynamic context in MIH information server. An extension is proposed on MIH framework to efficiently accommodate the dynamic context of access networks along with the ordinary static context in IS. The paper presents analytical evaluation of the proposed context gathering method in terms of context access latency and signalling overhead. Also, the paper presents a policy-based context-aware handover model based on the proposed extension. A well defined policy format is proposed for straight description of users’, devices’, and applications’ preferences and requirements. In contrast to traditional policy-based methods, a multi-policy scheme is proposed that exploits rank aggregation methods to employ a set of matching policies in target point of attachment selection. Simulations have been carried out in NS2 to verify the performance of the proposed context gathering method and the proposed handover decision model. Simulation results show better performance in terms of evaluation metrics.

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References

  1. Ylianttila, M., Pande, M., Makela, J., & Mahonen, P. (2001). Optimization scheme for mobile users performing vertical handoffs between IEEE 802.11 and GPRS/EDGE networks. In Proceedings of the IEEE global telecommunications conference (GLOBECOM ’01) (Vol. 1, pp. 3439–3443).

  2. Ylianttila, M., Makela, J., & Mahonen, P. (2002). Supporting resource allocation with vertical handoffs in multiple radio network environment. In Proceedings of the 13th IEEE international symposium on personal, indoor, and mobile radio communications (PIMRC ’02), Lisbon(Vol. 1, pp. 64–68).

  3. Sharma S., Baek I., Chiueh T.-C. (2007) OmniCon: A mobile IP-based vertical handoff system for wireless LAN and GPRS links. Software: Practice and Experience 37(7): 779–798

    Article  Google Scholar 

  4. Holtzman J. M., Sampath A. (1995) Adaptive averaging methodology for handoffs in cellular systems. IEEE Transactions on Vehicular Technology 44(1): 59–66

    Article  Google Scholar 

  5. Saxena, N., Roy, A., & Shin, J. (2007). CARP: Context-aware resource provisioning for multimedia over 4G wireless networks. In ICCS07 (pp. 652–659).

  6. Prehofer, C., Nafisi, N., & Wei, Q. (2003). A framework for context-aware handover decisions. In Proceedings of the IEEE international symposium on personal, indoor and mobile radio communications, Beijing, China.

  7. IEEE 802.21 (2008). IEEE standard for local and metropolitan area networks: Media independent handover services.

  8. Oliva A. D. L., Melia T., Vidal A., Bernardos C. J., Soto I., Banchs A. (2007) IEEE 802.21 enabled mobile terminals for optimized WLAN/3G handovers: A case study. SIGMOBILE Mobile Computing and Communications Review 11(2): 29–40

    Article  Google Scholar 

  9. De La Oliva A., Banchs A., Soto I., Melia T., Vidal A. (2008) An overview of IEEE 802.21: Media-independent handover services. Wireless Communications 15(4): 96–103

    Article  Google Scholar 

  10. Yee Y. C., Choong K. N., Low A. L. Y., Tan S. W. (2008) SIP-based proactive and adaptive mobility management framework for heterogeneous networks. Journal of Network and Computer Applications 31(4): 771–792

    Article  Google Scholar 

  11. Wang Y., Yuan J., Zhou Y., Li G., Zhang P. V. (2010) Handover management in enhanced MIH framework for heterogeneous wireless networks environment. Wireless Personal Communications 52(3): 615–636

    Article  Google Scholar 

  12. Neves P., Soares J., Sargento S., Pires H., Fontes F. (2011) Context-aware media independent information server for optimized seamless handover procedures. Computer Networks 55(7): 1498–1519

    Article  Google Scholar 

  13. Mussabbir Q. B., Wenbing Y., Zeyun N., Xiaoming F. (2007) Optimized FMIPv6 using IEEE 802.21 MIH services in vehicular networks. IEEE Transactions on Vehicular Technology 56(6): 3397–3407

    Article  Google Scholar 

  14. Saliba J., Beresford A., Ivanovich M., Fitzpatrick P. (2005) User-perceived quality of service in wireless data networks. Personal Ubiquitous Computing 9(6): 413–422

    Article  Google Scholar 

  15. Jingjing Z., Ansari N. (2011) On assuring end-to-end QoE in next generation networks: Challenges and a possible solution. Communications Magazine 49(7): 185–191

    Article  Google Scholar 

  16. Kilkki K. (2008) Quality of experience in communications ecosystem. Journal of Universal Computer Science 14(5): 615–624

    Google Scholar 

  17. Ghahfarokhi, B. S., & Movahhedinia, N. (2009). A context-aware handover decision based on user perceived quality of service trigger. Wireless Communications on Mobile Computing. doi:10.1002/wcm.854.

  18. Hwang C., Yoon K. (1981) Multiple attribute decision making: Methods and applications. Springer, Berlin

    Book  MATH  Google Scholar 

  19. Cacace, F., & Vollero, L. (2006). Managing mobility and adaptation in upcoming 802.21 enabled devices. In Proceedings of the 4th international workshop on wirseless mobile applications and services on WLAN hotspots (pp. 1–10).

  20. Huong, N. T. T., & Mitsuji, M. (2007). Ontology-based context management agent for vertical handoff use fuzzy logic decision in heterogeneous network. In Proceedings of the first international conference on complex, intelligent and software intensive systems (pp. 215–220).

  21. Lin, T., Wang, C., & Lin, P. (2005). A neural network based context-aware handoff algorithm for multimedia computing. In Proceedings of the IEEE international conference on acoustics, speech, and signal processing, (ICASSP05) (Vol. 2, pp. ii/1129–ii/1132).

  22. Inoue M., Mahmud K., Murakami H., Hasegawa M., Morikawa H. (2005) Context-based network and application management on seamless networking platform. Wireless Personal Communications 35(1–2): 53–70

    Article  Google Scholar 

  23. Bellavista, P., Cinque, M., Cotroneo, D., & Foschini, L. (2005). Integrated support for handoff management and context awareness in heterogeneous wireless networks. In Proceedings of the 3rd international workshop on middleware for pervasive and ad-hoc computing (pp. 1–8).

  24. Hasswa A., Nasser N., Hassanein H. (2007) A seamless context-aware architecture for fourth generation wireless networks. Wireless Personal Communications 43(3): 1035–1049

    Article  Google Scholar 

  25. Hong C.-P., Weems C. C., Kim S.-D. (2008) An effective vertical handoff scheme based on service management for ubiquitous computing. Computer Communications 31(9): 1739–1750

    Article  Google Scholar 

  26. Kang, T.-H., Hong, C.-P., Kim, Y.-S., & Kim, S.-D. (2006). A context-aware handoff management for seamless connectivity in ubiquitous computing environment. In Proceedings of the international conference on pervasive systems and computing (pp. 128–143).

  27. Zhu F., McNair J. (2006) Multiservice vertical handoff decision algorithms. EURASIP Journal on Wireless Communications Networking 2006(2): 52–64

    Google Scholar 

  28. Kang, J.-M., Ju, H.-T., & Hong, J. (2006). Towards autonomic handover decision management in 4G networks. In A. Helmy, B. Jennings, L. Murphy & T. Pfeifer (Eds.), Autonomic management of mobile multimedia services (pp. 145–157). Berlin: Springer-Verlag

  29. Prehofer, C., Nafisi, N., & Wei, Q. (2003). A framework for context-aware handover decisions. In 14th IEEE proceedings on personal, indoor and mobile radio communications, PIMR (Vol. 3, pp. 2794–2798).

  30. Chan P. M. L., Sheriff R. E., Hu Y. F., Conforto P., Tocci C. (2002) Mobility management incorporating fuzzy logic for heterogeneous IP environment. Communications Magazine 39(12): 42–51

    Article  Google Scholar 

  31. Wenhui, Z. (2004). Handover decision using fuzzy MADM in heterogeneous networks. In Proceedings of the IEEE wireless communications and networking conference, WCNC (Vol. 2, pp. 653–658).

  32. Stevens-Navarro, E., & Wong, V. (2006). Comparison between vetrical handoff decision algorithms for heterogeneous wireless networks. In Proceedings of the IEEE vehicular technology conference (pp. 947–951).

  33. Ahmed, T., Kyamakya, K., & Ludwig, M. (2006). Architecture of a context-aware vertical handover decision model and its performance analysis for GPRS—WiFi handover. In Proceedings of the 11th IEEE Symposium on Computers and Communications (pp. 795–801).

  34. Kassar M., Kervella B., Pujolle G. (2008) An overview of vertical handover decision strategies in heterogeneous wireless networks. Computer Communications 31(10): 2607–2620

    Article  Google Scholar 

  35. Sun, J.-Z., Riekki, J., Sauvola, J., & Jurmu, M. (2004). Towards connectivity management adaptability: Context awareness in policy representation and end-to-end evaluation algorithm. Proceedings of the 3rd international conference on mobile and ubiquitous multimedia (pp. 85–92).

  36. Al Mosawi, T., Wisely, D., & Aghvami, H. (2006). A novel micro mobility solution based on media independent handover and SIP. In Proceedings of the IEEE 64th vehicular technology conference (pp. 1–5).

  37. Yang, S.-F., Wu, J.-S., & Huang, H.-H. (2008). A vertical media-independent handover decision algorithm across Wi-Fi and WiMAX networks. In Proceedings of the 5th IFIP international conference on wireless and optical communications networks, WOCN ’08 (pp. 1–5).

  38. Gu, C., Wang, J.-y., & Song, M. (2008). An intelligent seamless handover mechanism based on IEEE 802.21. In Proceedings of the international conference on multimedia and information technology (pp. 558–561).

  39. RFC 2753; A Framework for Policy-based admission control, 2000.

  40. Saaty T. L. (1990) How to make a decision: The analytic hierarchy process. European Journal of Operational Research 48: 9–26

    Article  MATH  Google Scholar 

  41. Jiang, X., Wang, Y., & Wang, C. (2009). No-reference video quality assessment for MPEG-2 video streams using BP neural networks. Paper presented at the proceedings of the 2nd international conference on interaction sciences: Information technology, culture and human, Seoul, Korea (pp. 307–311).

  42. Klaue, J., Rathke, B., & Wolisz, A. (2003). EvalVid—a framework for video transmission and quality evaluation. In P. Kemper & W. H. Sanders (Eds.), Computer performance (pp. 255–272). Springer

  43. Dwork, C., Kumar, R., Moni, N., & Sivakumar, V. (2001). Rank aggregation methods for the web. In Proceedings of the 10th international world wide web conference (pp. 613–622).

  44. Lin S. (2010) Rank aggregation methods. Wiley Interdisciplinary Reviews: Computational Statistics 2(5): 555–570

    Article  Google Scholar 

  45. Aslam, J. A., & Montague, M. (2001). Models for metasearch. In Proceedings of the 24th annual international ACM SIGIR conference on research and development in information retrieval (pp. 276–284).

  46. http://w3.antd.nist.gov/seamlessandsecure/pubtool.shtml. Visited on August 2010.

  47. Hock N. C. (1996) Queueing modelling fundamentals. Wiley, London

    MATH  Google Scholar 

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Authors and Affiliations

  1. Department of Information Technology Engineering, University of Isfahan, Isfahan, Iran

    Behrouz Shahgholi Ghahfarokhi

  2. Department of Computer Engineering, University of Isfahan, Isfahan, Iran

    Naser Movahhedinia

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  1. Behrouz Shahgholi Ghahfarokhi
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  2. Naser Movahhedinia
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Correspondence to Behrouz Shahgholi Ghahfarokhi.

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Ghahfarokhi, B.S., Movahhedinia, N. Context-Aware Handover Decision in an Enhanced Media Independent Handover Framework. Wireless Pers Commun 68, 1633–1671 (2013). https://doi.org/10.1007/s11277-012-0543-4

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