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Tradeoff Analysis of Delay-Power-CSIT Quality of Dynamic Backpressure Algorithm for Energy Efficient OFDM Systems

Authors Lau, Vincent K. N.
Koh, Chung Ha
Issue Date 2012
Source IEEE Transactions on Signal Processing , v. 60, (8), August 2012, p. 4254-4263
Summary In this paper, we analyze the fundamental power-delay tradeoff in point-to-point OFDM systems under imperfect channel state information quality and nonideal circuit power. We consider the dynamic backpressure (DBP) algorithm, where the transmitter determines the rate and power control actions based on the instantaneous channel state information (CSIT) and the queue state information (QSI). We exploit a general fluid queue dynamics using a continuous time dynamic equation. Using the sample-path approach and renewal theory, we decompose the average delay in terms of multiple unfinished works along a sample path, and derive an upper bound on the average delay under the DBP power control, which is asymptotically accurate at small delay regime. We show that despite imperfect CSIT quality and nonideal circuit power, the average power (P) of the DBP policy scales with delay (D) as P = O(D exp(1/D)) at small delay regime. While the impacts of CSIT quality and circuit power appears as the coefficients of the scaling law, they may be significant in some operating regimes.
ISSN 1053-587X
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Language English
Format Article
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