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Robust downlink power control using worst-case performance optimization

In this paper, a new robust downlink power control solution based on worst-case performance optimization is developed. Our approach depends on explicit modeling of uncertainties in the downlink channel correlation (DCC) matrices, worst-case performance optimization and guarantees that the quality of...

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Main Authors:	Hui-Ping Li, Ting-Ting Liu, Jian-Kang Zhang, Wong, K.M.
Format:	Conference Proceeding
Language:	English
Subjects:	Downlink Interference Power control Quality of service Robustness Signal to noise ratio Uncertainty
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creator	Hui-Ping Li Ting-Ting Liu Jian-Kang Zhang Wong, K.M.
description	In this paper, a new robust downlink power control solution based on worst-case performance optimization is developed. Our approach depends on explicit modeling of uncertainties in the downlink channel correlation (DCC) matrices, worst-case performance optimization and guarantees that the quality of service (QoS) constraints are satisfied for all users using minimum amount of power. An iterative algorithm to find the optimum power allocation is proposed. The key to this algorithm is to solve an optimization problem to obtain worst-case uncertainty matrices. When the uncertainty is small enough to guarantee that the DCC matrices are positive semidefinite, we obtain a closed-form solution of the subproblem. When the uncertainty is large, we transform this intractable problem into a convex problem. Simulation results show that our proposed robust downlink power control using the approach of worst-case performance optimization reduces the transmission power effectively under imperfect knowledge of the channel condition.
doi_str_mv	10.1109/ISIT.2008.4595454
format	conference_proceeding
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Our approach depends on explicit modeling of uncertainties in the downlink channel correlation (DCC) matrices, worst-case performance optimization and guarantees that the quality of service (QoS) constraints are satisfied for all users using minimum amount of power. An iterative algorithm to find the optimum power allocation is proposed. The key to this algorithm is to solve an optimization problem to obtain worst-case uncertainty matrices. When the uncertainty is small enough to guarantee that the DCC matrices are positive semidefinite, we obtain a closed-form solution of the subproblem. When the uncertainty is large, we transform this intractable problem into a convex problem. 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subjects	Downlink Interference Power control Quality of service Robustness Signal to noise ratio Uncertainty
title	Robust downlink power control using worst-case performance optimization
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