Modeling and performance analysis of beyond 3G integrated wireless networks

Next-generation wireless networking is evolving towards a multi-service heterogeneous paradigm that converges different pervasive access technologies and provides a large set of novel revenue generating applications. Hence, system complexity increases due to its embedded heterogeneity, which can not be accounted by the existing modeling and performance evaluation techniques. Consequently, the development of new modeling approaches becomes as a crucial requirement for proper system design and performance evaluation. This paper presents a novel mobility model for a two-tier integrated wireless system using a new modeling approach that accommodates the aforementioned complexity. Additionally, a novel session model is developed as an adapted version of the proposed mobility model. These models use phase-type distributions that are known to approximate any generic probability laws. Using the proposed session model, a novel generic analytical framework is developed to obtain several salient performance metrics such as network utilization times and handoff rates. Simulation and analysis results prove the proposed model validity and demonstrate the accuracy of the novel modeling approach when compared with traditional modeling techniques.