Abstract-The Next Generation Internet will provide ubiquitous computing by the seamless operation of heterogeneous wireless networks. It will also provide support for quality-ofservice, QoS, fostering new classes of applications and will have a built-in multi-level security environment. A key requirement of this new infrastructure will be support for efficient vertical handover. Y-Comm is a new architecture that will meet the challenge of this new environment. This paper explores the design of efficient imperative handover mechanisms using the Y-Comm Framework. It first looks at different types of handovers, then examines the Y-Comm Framework and shows how Y-Comm maps unto current mobile infrastructure. It then explores support for different handover mechanisms using Y-Comm. Finally, it highlights the development of a new testbed to further investigate the proposed mechanisms.
The development and deployment of several wireless and cellular networks mean that users will demand to be always connected as they move around. Mobile nodes will therefore have several interfaces and connections will be seamlessly switched among available networks using vertical handover techniques. Proactive handover mechanisms can be combined with the deployment of a number of location-based systems that provide location information to a very high degree of accuracy in different contexts. Furthermore, this new environment will also allow contextual information such as user profiles as well as the availability of using location and contextual information to provide efficient handover mechanisms. Using location-based techniques, it is possible to demonstrate that the Time Before Vertical Handover as well as the Network Dwell Time can be accurately estimated. These techniques are dependent on accurately estimating the handover radius. This paper investigates how location and context awareness can be used to estimate the best handover radius. The paper also explores how such techniques may be integrated into the Y-Comm architecture which is being used to explore the development of future mobile networks. Finally, the paper highlights the use of ontological techniques as a mechanism for specifying and prototyping such systems.
Abstract-An increasingly wireless world will mean that devices with multiple network interfaces will soon become commonplace. Users will expect to be always connected from anywhere and at any time as connections will be switched to available networks using handover techniques. However, different networks have different Qualities-of-Service so a Quality-of-Service Framework is needed to help applications and services deal with this new environment. In addition, since these networks must work together, future mobile systems will have an open, instead of the currently closed, architecture. Therefore new mechanisms will be needed to protect users, servers and network infrastructure. This means that future mobile networks will have to integrate communications, mobility, quality-of service and security. This paper provides an overview of potential architectures for communication in future networks. Our study shows that only a number of these architectures support this integration.
Atualmente os dispositivos móveis possuem várias interfaces de redes, podendo acessar a Internet usando várias tecnologias de rede sem fio. Porém, neste ambiente heterogêneo, as trocas de rede ocasionam perda de dados e de conexão. O IEEE propôs o protocolo IEEE 802.21 (MIH), uma arquitetura inter-camadas para auxiliar na troca de redes de tecnologias diferentes com a intenção de minimizar a perda de pacotes. Uma das vantagens é que ela pode prever a necessidade de uma troca de rede e avisar as camadas superiores sobre o evento. Este artigo apresenta os resultados da simulação de um ambiente heterogêneo sem fio onde nós analisamos os benefícios do evento Link_Going_Down do IEEE 802.21. O protocolo apresentou resultados significativos relacionados à vazão e ao tempo de handover.
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