Multicell downlink beamforming with imperfect channel knowledge at both transceiver sides

Dhananjaya Ponukumati; Feifei Gao; Mathias Bode; Xuewen Liao

doi:10.1109/LCOMM.2011.082011.111164

Multicell downlink beamforming with imperfect channel knowledge at both transceiver sides

Dhananjaya Ponukumati
, Feifei Gao
, Mathias Bode
, Xuewen Liao

Faculty of Electronic and Information Engineering

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

In this letter, we design downlink beamforming vectors for a multicell network when only imperfect channel state information (CSI) is available at both base stations (BS) and mobile users (MU). We consider two different optimization criteria, i.e., minimizing the total downlink transmit power subject to quality of service (QoS) constraints at each MU and maximizing the worst-case effective signal-to-interference-plus-noise ratio (SINR) subject to BS power constraints. To solve the optimization problems, the imperfect CSI embedded QoS constraints are converted to linear matrix inequalities (LMI) with the aid of S-procedure, and then a semidefinite relaxation (SDR) approach is applied. Numerical results are provided to corroborate the proposed studies.

Original language	English
Article number	6005188
Pages (from-to)	1075-1077
Number of pages	3
Journal	IEEE Communications Letters
Volume	15
Issue number	10
DOIs	https://doi.org/10.1109/LCOMM.2011.082011.111164
State	Published - Oct 2011

Keywords

Multicell
downlink beamforming
robust design
semidefinite programming

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10.1109/LCOMM.2011.082011.111164

Cite this

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title = "Multicell downlink beamforming with imperfect channel knowledge at both transceiver sides",

abstract = "In this letter, we design downlink beamforming vectors for a multicell network when only imperfect channel state information (CSI) is available at both base stations (BS) and mobile users (MU). We consider two different optimization criteria, i.e., minimizing the total downlink transmit power subject to quality of service (QoS) constraints at each MU and maximizing the worst-case effective signal-to-interference-plus-noise ratio (SINR) subject to BS power constraints. To solve the optimization problems, the imperfect CSI embedded QoS constraints are converted to linear matrix inequalities (LMI) with the aid of S-procedure, and then a semidefinite relaxation (SDR) approach is applied. Numerical results are provided to corroborate the proposed studies.",

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AU - Ponukumati, Dhananjaya

AU - Gao, Feifei

AU - Bode, Mathias

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Y1 - 2011/10

N2 - In this letter, we design downlink beamforming vectors for a multicell network when only imperfect channel state information (CSI) is available at both base stations (BS) and mobile users (MU). We consider two different optimization criteria, i.e., minimizing the total downlink transmit power subject to quality of service (QoS) constraints at each MU and maximizing the worst-case effective signal-to-interference-plus-noise ratio (SINR) subject to BS power constraints. To solve the optimization problems, the imperfect CSI embedded QoS constraints are converted to linear matrix inequalities (LMI) with the aid of S-procedure, and then a semidefinite relaxation (SDR) approach is applied. Numerical results are provided to corroborate the proposed studies.

AB - In this letter, we design downlink beamforming vectors for a multicell network when only imperfect channel state information (CSI) is available at both base stations (BS) and mobile users (MU). We consider two different optimization criteria, i.e., minimizing the total downlink transmit power subject to quality of service (QoS) constraints at each MU and maximizing the worst-case effective signal-to-interference-plus-noise ratio (SINR) subject to BS power constraints. To solve the optimization problems, the imperfect CSI embedded QoS constraints are converted to linear matrix inequalities (LMI) with the aid of S-procedure, and then a semidefinite relaxation (SDR) approach is applied. Numerical results are provided to corroborate the proposed studies.

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KW - robust design

KW - semidefinite programming

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Multicell downlink beamforming with imperfect channel knowledge at both transceiver sides

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