Dynamic QoS provisioning in wireless data networks
2001
Providing quality of service(QoS) guarantees in mobile data networks is an inherently challenging task. Mobility of users imposes a spatial demand on resources resulting in overloaded regions that are entirely dependent on mobility pattern of the users, that is often unpredictable. Prior and ongoing work in this area of QoS relies on call admission control (CAC) based on the assumption of random or uniform mobility patterns, and also in most cases are based on local information. The challenge is to design a scalable scheme that can provide QoS under distinct mobility patterns. In contrast to the standard notion of QoS which is based on the handoff dropping probability, another important notion of QoS is based on disallowing handoff drops but minimizing the cell congestion probability that may occur in a given cell. In this paper we explore this notion of QoS by proposing a dynamic CAC scheme that uses a dynamically estimated mobility pattern and distribution of users in different cells to reach an admission decision with the objective of minimizing cell congestion probability. This scheme does not maintain per user state, and can be implemented in a distributed fashion. From simulation results, we show that across different mobility patterns, the proposed scheme performs better than existing schemes in terms of achieved QoS while providing the minimum level of overall target utilization.
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