Analysis of the effect of mobile terminal speed on WLAN/3G vertical handovers

Proceedings of IEEE Global Telecommunications Conference, GLOBECOM '06, San Francisco, California, 27 november - 1 december, 2006.WLAN hot-spots are becoming widely spread. This, combined with the availability of new multi-mode terminals integrating heterogeneous technologies, opens new business opportunities for mobile operators. Scenarios in which 3G coverage is complemented by WLAN deployments are becoming available. Thus, true all-IP based networks are ready to offer a new variety of services across heterogeneous access. However, to achieve this, some aspects still need to be analyzed. In particular, the effect of the terminal speed on the detection and selection process of the preferred access network is not yet well understood. In fact, efficiency of vertical handovers depends on the appropriate configuration of mobile devices. In this paper we present a simulation study of handover performance between 3G and WLAN access networks showing the impact of mobile users’ speed. The mobile devices are based on the IEEE 802.21 cross layer architecture and use WLAN signal level thresholds as handover criteria. A novel algorithm to dynamically adjust terminals’ configuration is presented.Publicad

MobiSplit: a Scalable Approach to Emerging Mobility Networks

First ACM/IEEE International Workshop on Mobility in the Evolving Internet Architecture. Session: Architectural issues. San Francisco, California, Dec. 01 2006This paper presents a novel architecture, MobiSplit, to manage mobility in future IP based networks. The proposed architecture separates mobility management in two levels, local and global, that are managed in completely independent ways. The paper describes the flexibility advantages that this architecture brings to operators, and how it is appropriate for the current trend to multiple and very different access providers and operators. Heterogeneity, support for seamless handovers and multihoming, and scalability issues are analyzed in the paper

PMIPv6: a network-based localized mobility management solution

European Community's Seventh Framework ProgramPublicad

IP Flow Mobility in PMIPv6 Based Networks: Solution Design and Experimental Evaluation

The ability of offloading selected IP data traffic from 3G to WLAN access networks is considered a key feature in the upcoming 3GPP specifications, being the main goal to alleviate data congestion in cellular networks while delivering a positive user experience. Lately, the 3GPP has adopted solutions that enable mobility of IP-based wireless devices relocating mobility functions from the terminal to the network. To this end, the IETF has standardized Proxy Mobile IPv6 (PMIPv6), a protocol capable to hide often complex mobility procedures from the mobile devices. This paper, in line with the mentioned offload requirement, further extends PMIPv6 to support dynamic IP flow mobility management across access wireless networks according to operator policies. Considering energy consumption as a critical aspect for hand-held devices and smart-phones, we assess the feasibility of the proposed solution and provide an experimental analysis showing the cost (in terms of energy consumption) of simultaneous packet transmission/reception using multiple network interfaces. The end-to-end system design has been implemented and validated by means of an experimental network setup.European Community´s Seventh Framework ProgramPublicad

Experimental evaluation of a handover optimization solution for multimedia applications in a mobile IPv6 network

The EU IST priject Movi Dick works with the vision, shared by many other reearches, that Nex Generation Networks will be based in IPv6 with mobility, Security and Quality of Servicce support. These networks will offer all kind of services, including multimedia ones with real-tiime requirements, traditionally offered by ciucuit switched technologies. Tje IETF is finishing the standarization of a solution for mobiility in IPv6 networks: Mobile IPv6. Additional protocols are being discussed to improve the performance of Mobile IPV6 to support real-time traffic during handovers; one of these proposals is Fast Handovers for Mobile-IPv6. This paper analyses experimentally the performance of Mobile IPv6 and Fast Handovers for Mobile IPv6, to study if the performance is acceptable for multimedia applicationes. Both, quantitative measurements and results of quality perceived by users of IPv6 multimedia applications are provided