DocumentCode
802549
Title
Improvements to seamless vertical handover between mobile WiMAX and 3GPP UTRAN through the evolved packet core
Author
Song, William J. ; Chung, Jong-Moon ; Lee, Daeyoung ; Lim, Chaegwon ; Choi, Sungho ; Yeoum, Taesun
Author_Institution
Yonsei Univ., Seoul
Volume
47
Issue
4
fYear
2009
fDate
4/1/2009 12:00:00 AM
Firstpage
66
Lastpage
73
Abstract
Recent mobile devices are integrated with multiple network interfaces. Users want their devices connected to the network anytime anywhere. It is highly feasible for a user to change connection to another network for users that leave the service area of its current serving network, where handover needs to be executed seamlessly such that ongoing service sessions are not interrupted. The handover operation not only requires switching the interfaces within a device but also involves seamless reconfiguration of the supporting networks. In this article, an improved IP-based vertical handover technology for mobile WiMAX , 3GPP legacy systems (i.e., Global System for Mobile communications and Universal Mobile Telecommunications System), and 3G Long Term Evolution is presented, which is based on existing optimized handover techniques between mobile WiMAX and 3GPP accesses. Formerly proposed 3GPP WiMAX optimized VHO solutions introduced new elements, such as the forward attachment function and access network discovery and selection function. The ANDSF supports the discovery of target access, and the FAF provides the functionality that authenticates the UE before the execution of VHO. However, the previous technique has limitations that result in data loss and abnormal disconnection to the source access. This article provides a solution by introducing an additional network element called the data forwarding function (DFF) that eliminates the data loss during VHO execution. In addition, the DFF resolves the problem of abrupt disconnection to the source network. The simulation results show that the proposed VHO technique is effective in minimizing data loss during VHO execution between mobile WiMAX and 3GPP networks. As the proposed solution of this article is an IP based handover solution, it can be similarly applied to other communication networks.
Keywords
3G mobile communication; IP networks; WiMax; 3GPP UTRAN; 3GPP legacy systems; 3GPP networks; IP-based vertical handover technology; access network discovery; evolved packet core; forward attachment function; mobile WiMAX; mobile devices; multiple network interfaces; optimized handover techniques; seamless vertical handover; Base stations; Communication switching; Costs; Guidelines; Internetworking; Mobile communication; Signal processing; Signal resolution; Telecommunication traffic; WiMAX;
fLanguage
English
Journal_Title
Communications Magazine, IEEE
Publisher
ieee
ISSN
0163-6804
Type
jour
DOI
10.1109/MCOM.2009.4907409
Filename
4907409
Link To Document