3rd International ICST Conference on COMmunication System SoftWAre and MiddlewaRE

Research Article

Location Management Area (LMA)-based MBS Handover in Mobile WiMAX Systems

  • @INPROCEEDINGS{10.1109/COMSWA.2008.4554437,
        author={Ji Hoon Lee and Taekyoung Know and Yanghee Choi and Sangheon Pack},
        title={Location Management Area (LMA)-based MBS Handover in Mobile WiMAX Systems},
        proceedings={3rd International ICST Conference on COMmunication System SoftWAre and MiddlewaRE},
        publisher={IEEE},
        proceedings_a={COMSWARE},
        year={2008},
        month={6},
        keywords={},
        doi={10.1109/COMSWA.2008.4554437}
    }
    
  • Ji Hoon Lee
    Taekyoung Know
    Yanghee Choi
    Sangheon Pack
    Year: 2008
    Location Management Area (LMA)-based MBS Handover in Mobile WiMAX Systems
    COMSWARE
    IEEE
    DOI: 10.1109/COMSWA.2008.4554437
Ji Hoon Lee1,*, Taekyoung Know1,*, Yanghee Choi1,*, Sangheon Pack2,*
  • 1: School of Computer Science and Engineering Seoul National University, Korea
  • 2: School of EE Korea University, Korea
*Contact email: jhlee@mmlab.snu.ac.kr, tkkwon@snu.ac.kr, yhchoi@snu.ac.kr, shpack@korea.ac.kr

Abstract

Mobile WiMAX aims to provide multimedia multicast/ broadcast service (MBS) as well as elastic data service. However, supporting delay sensitive applications like video/audio streaming is still challenging, which requires both efficient handling of link bandwidth and reducing handover delays. To reduce the handover delay in MBS, the IEEE 802.16e standard defines an MBS zone, which is a group of base stations transmitting the same multicast packets. This delay reduction comes at the cost of the high MBS traffic load on Mobile WiMAX networks. In this paper, we propose a location management area (LMA)- based MBS handover, dealing with both the bandwidth usage and service disruption.We develop an analytical model to quantify the handover delay and wireless bandwidth usage. Numerical results reveal that the LMA-based handover scheme achieves bandwidth efficient multicast delivery with a slight increase of the average service disruption.