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An admission control algorithm for power-controlled wireless networks, proposed previously for the case of linear interference functions, is considered in this paper. We analyze the properties of the algorithm using the framework of standard interference functions, which makes it applicable to many system designs. Furthermore, we introduce individual power constraints into the system. The key property...
We consider a power-controlled wireless network with an established network topology in which the communication links (transmitter-receiver pairs) are subject to some constraints on transmit powers and corrupted by the cochannel interference and background noise. The interference is completely determined by a so-called gain matrix. Assuming irreducibility of the gain matrix, we provide an elegant...
In [1], the authors proposed an admission control scheme for power-controlled wireless networks with linear interference functions (fixed receivers). This paper extends the main results of [1] to standard interference functions that include optimal reception in the sense of maximizing the signal-to-interference ratios as a special case. Moreover, we consider the possibility of transmitter side optimization.
In wireless fading channels, the network outage probability is defined as a probability that there is no power allocation such that each user can achieve its SIR target. In this paper several lower and upper bounds on the network outage probability under the assumption of Rayleigh fading channels are presented. Moreover, we analyze the asymptotic behavior of the bounds as the number of users tends...
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