Journal of Advanced Navigation Technology (한국항행학회논문지)

The Korean Navigation Institute (한국항행학회)
권호 표지

Preserving Mobile QoS during Handover via Predictive Scheduling in IMT Advanced System

IMT Advanced 시스템에서 예측 스케줄링을 통한 핸드오버시 모바일 QoS 보존 방법

  • Poudyal, Neeraj (Information & Telecommunication Engineering, Graduate School, Korea Aerospace University) ;
  • Lee, Byung-Seub (Information & Telecommunication Engineering, Korea Aerospace University)
  • Received : 2010.10.27
  • Accepted : 2010.12.30
  • Published : 2010.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

In this paper, a novel schedulability criteria is developed to provide handover calls with Quality of Service (QoS) guarantees in terms of both minimum available bandwidth, maximum tolerated packet delay, and other additive QoS constraints as required by the real-time mobile traffic. This requires prediction of the handover time using mobility trends on the mobile station, which is used as input to this work. After the handover time and the QoS are negotiated, the destination base station makes attempts to give priority to handover calls over new calls, and pre-reserves resources that will have more chance of being available during the actual handover.

본 논문에서의 새로운 스케줄링은 모바일 간에 실시간으로 요구하는 모든 최소 가용 대역폭, 최대 지연 시간 그리고 다른 부수적인 조건들에 대해 QoS를 보장하는 핸드오버 요청들을 제공하기 위해 제안되었다. 입력으로는 모바일 스테이션이 서비스지역 이동간에서 발생하는 핸드오버 시간에 대한 예측이 필요하다. QoS와 핸드오버 시간을 알게 된 후, 목적지 기지국은 새로운 요청을 위한 핸드오버에 우선순위를 둔다. 그리고 이전의 리소스는 실제로 핸드오버 동안 사용할 수 있는 기회를 조금 더 가지게 된다.

Keywords

References

  1. "IEEE 802.16m System Description Document (SDD)", Website. IEEE, 2009.
  2. "Requirements related to technical performance for IMT-Advanced radio interface(s)", ITU, 2008.
  3. "Guidelines for evaluation of radio interface technologies for IMT-Advanced", ITU, 2008.
  4. I Joe and M Shin, "A Mobility-based Prediction Algorithm with Dynamic LGD Triggering for Vertical Handover", IEEE CCNC. 2010.
  5. "Draft Standard for Local and Metropolitan Area Networks: Media Independent Handover Services", IEEE Computer Society, June 2008.
  6. J.M. Bauset, J M G Guzman and V Pla, "Optimal Admission Control in Multimedia Mobile Networks with handover prediction", Wireless Communications, IEEE, Vol.15, Issue 5, 2008.
  7. K. Miyashita, T. Terada, and S. Nishio, "A Map Matching Algorithm for Car Navigation Systems that Predict User Destination", 22nd International Conference on Advanced Information Networking and Applications.
  8. H. Ge X. Wen, W. Zheng, Z. Lu, B Wang ,"A History-Based Handover Prediction for LTE Systems", International Symposium on Computer Network and Multimedia Technology, 2009.
  9. 문재경, 오길남, 박재홍, 하영호, 김수중, "지상파 방송 채널에서 OFDM 시스템의 시간 평균 채널 추정기의 성능," 한국전자파학회논문지, 제10권, 제1호, pp. 44-53, 1999. 2.
  10. K. Wongthavarawat and A. Ganz, "Packet Scheduling for QoS support in IEEE 802.16 broadband wireless access systems", International Journal of Communication Systems, Vol. 16, pp. 81-96, Feb 2003. https://doi.org/10.1002/dac.581
  11. D. Niyato and E. Hossain, "Connection Admission Control Algorithsm for OFDM Wireless Networks, IEEE GLOBECOM, MO, USA. 28 Nov-2 Dec 2005.
  12. J. Y. Lee, K. B. Kim, "Statistical Connection Admission Control for Mobile Wimax Systems".
  13. R. Iyengar, K. Kar and B. Sikdar, "Scheduling Algorithms for Point-to-Multipoint Operation in IEEE 802.16 Networks", Proceedings of 2nd Workshop on Resource Allocation in Wireless Networks (RAWNET), April 2006.
  14. R. Iyengar. V. Shanna, K. Kar and B. Sikdar, "Analysis of Contention based Multi-Channel Wireless MAC for Point to multipoint Networks", Proceedings of IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks, Buffalo, June 2006.
  15. R. Iyengar, P. Iyer arid B. Sikdar, "Delay Analysis of 802.16 based Last Mile Wireless Networks", Proceedings of IEEE Globecom, 2005.
  16. B.J. Chang, C. M. Chou and Y. H. Liang, "Markov Chain Analysis of Uplink subframe in polling-based WIMAX networks", Computer Communications. Vol. 31. Issue 10, pp. 2381-2390, June 2008. https://doi.org/10.1016/j.comcom.2008.03.004