Abstract
In this chapter, we develop call admission control algorithms for signalto-interference ratio-based power-controlled direct-sequence code-division multiple-access cellular networks. We consider networks that handle multiple classes of services. When a new call (or a handoff call) arrives at a base station requesting admission, our algorithms will calculate the desired power control setpoints for the new call and all existing calls. We will provide necessary and sufficient conditions under which the power control algorithm will have a feasible solution. These conditions are obtained through deriving the inverse of the matrix used in the calculation of power control setpoints. If there is no feasible solution to power control or if the desired power levels to be received at the base station for some calls are larger than the maximum allowable power limits, the admission request will be rejected. Otherwise, the admission request will be granted. When higher priority is desired for handoff calls, we will allow different thresholds for new calls and handoff calls. We will develop an adaptive algorithm that adjusts these thresholds in real time as the environment changes. The performance of our algorithms will be shown through computer simulation.
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Liu, D., Zhang, Y., Hu, S. (2003). Power Control and CallAdmission Control forDS-CDMA Cellular Networks. In: Liu, D., Antsaklis, P.J. (eds) Stability and Control of Dynamical Systems with Applications. Control Engineering. Birkhäuser, Boston, MA. https://doi.org/10.1007/978-1-4612-0037-6_21
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DOI: https://doi.org/10.1007/978-1-4612-0037-6_21
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