Stability Emphasizing Cross-Layer Optimization of Transmit Power Allocation in Distributed Wireless Networks
説明
This paper theoretically analyzes cross-layer optimized design of transmit power allocation in distributed interference-limited wireless networks with asynchronously acting links and stochastic communication channels, whereby the network link's architecture is abstracted into three layers - a physical, a data link and a network layer. We treat the transmit power allocation process as a result of coupled interaction, in which all the three layers try to satisfy their individual requirements on power control, admission control and routing respectively. Using a best-response approach for system modeling and the notion of network's stability for its cross-layer optimization, we present simple power control and admission control algorithms for convergent iterative allocation of equilibrium transmit powers, which optimally balance the network-wide trade-off between allocated transmit powers and resulting interference. Numerical simulations evaluate the achievable stability of our scheme with theoretical bounds.
収録刊行物
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- IEEE GLOBECOM 2007-2007 IEEE Global Telecommunications Conference
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IEEE GLOBECOM 2007-2007 IEEE Global Telecommunications Conference 3338-3342, 2007-11-01
IEEE