Abstract
The Next Generation Wireless Networks (NGWNs) are seemed to be heterogeneous networks based on the integration of several wireless technologies. These networks are required to achieve performances equivalent to classic wireless networks by ensuring the continuity of communications and the homogeneity of network management during horizontal and vertical handovers. This task is even more important when management services, like security and quality of service (QoS), are deployed at access technology level. In this paper, we propose a framework for heterogeneous wireless technology integration based on network architecture skeleton and a handover management mechanism. This framework optimizes the layer-2 handover procedure to achieve performances required by sensitive applications while ensuring the minimization of signaling overhead required for operated networks. As an application example, we make use of this framework to propose a heterogeneous network based on WiFi and WiMAX technologies. We present an application example of the framework using the specification of a WiFi-WiMAX network. We propose several performance evaluations based on simulation tests based on this application. The latter confirm the efficiency of handover delay optimization and the minimization of management signaling costs.
Highlights
The growth of wireless communication has been, in a few years, important thanks to the advantages they offer such as deployment flexibility and user mobility during communications
To be able to ensure a mapping between quality of service (QoS) parameters, we propose to consider the matching defined by the IEEE 802.16e-2005 between Scheduling services and QoS parameters as a reference in the translation procedure
We have proposed an application of this general framework to the deployment of a WiFi-WiMAX network
Summary
The growth of wireless communication has been, in a few years, important thanks to the advantages they offer such as deployment flexibility and user mobility during communications. The deployment of such networks using heterogeneous technologies will require a good connectivity during handovers, by reducing latency, and the homogeneity of management services such as authentication and QoS This is possible by deploying anticipation mechanisms that reduce negotiation exchanges between the terminals and the network, such as context transfer and proactive negotiation [1], and accelerate the redirection data traffic during the execution of the HO. The integration architectures offer to graft one technology to another and to manage heterogeneous mobility based on Mobile IP and extensions These solutions enable the optimization of the network reattachment (i.e., the layer HO) by limiting the heterogeneous handover to the reattachment to the new PoA (i.e., layer-2 HO). We propose a technology-integration framework that provides a new approach to deploy generation wireless networks This framework offers a heterogeneous access to a global network with optimized mobility performances regarding HO execution time and signaling cost.
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