Distributed MMSE beamforming design for relay-assisted C-RAN

Na Li; Chengwen Xing; Zesong Fei; Liang Sun; Ming Lei

doi:10.1109/VTCSpring.2014.7022887

Distributed MMSE beamforming design for relay-assisted C-RAN

Na Li, Chengwen Xing, Zesong Fei, Liang Sun, Ming Lei

School of Information and Electronics

Research output: Contribution to journal › Conference article › peer-review

Abstract

In this paper, the linear minimum mean square error beamformers are designed for relay-assisted cloud radio access network (C-RAN). In C-RAN, the remote radio units are separated from the baseband units to save energy cost. To further enhance network coverage, it is a good choice to duly arrange relay nodes. Regrading the per-antenna power constraints at both the relay nodes and the remote radio heads (RRHs), the beamformer matrices at the relay nodes and RRHs are jointly optimized for the relay assisted C-RAN. Since the considered problem is a non-convex optimization problem and is with multiple variables, it is in general very hard to solve. To make the design suitable for C-RAN exploiting the problem structure, two novel decomposition algorithms are proposed. One algorithm is mainly carried out at the RRHs, another is mainly performed at the relay node. Finally in the simulations, the performance of the proposed algorithms are demonstrated.

Original language	English
Article number	7022887
Journal	IEEE Vehicular Technology Conference
Volume	2015-January
Issue number	January
DOIs	https://doi.org/10.1109/VTCSpring.2014.7022887
Publication status	Published - 2014
Event	2014 79th IEEE Vehicular Technology Conference, VTC 2014-Spring - Seoul, Korea, Republic of Duration: 18 May 2014 → 21 May 2014

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10.1109/VTCSpring.2014.7022887

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title = "Distributed MMSE beamforming design for relay-assisted C-RAN",

abstract = "In this paper, the linear minimum mean square error beamformers are designed for relay-assisted cloud radio access network (C-RAN). In C-RAN, the remote radio units are separated from the baseband units to save energy cost. To further enhance network coverage, it is a good choice to duly arrange relay nodes. Regrading the per-antenna power constraints at both the relay nodes and the remote radio heads (RRHs), the beamformer matrices at the relay nodes and RRHs are jointly optimized for the relay assisted C-RAN. Since the considered problem is a non-convex optimization problem and is with multiple variables, it is in general very hard to solve. To make the design suitable for C-RAN exploiting the problem structure, two novel decomposition algorithms are proposed. One algorithm is mainly carried out at the RRHs, another is mainly performed at the relay node. Finally in the simulations, the performance of the proposed algorithms are demonstrated.",

author = "Na Li and Chengwen Xing and Zesong Fei and Liang Sun and Ming Lei",

note = "Publisher Copyright: {\textcopyright} 2014 IEEE.; 2014 79th IEEE Vehicular Technology Conference, VTC 2014-Spring ; Conference date: 18-05-2014 Through 21-05-2014",

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T1 - Distributed MMSE beamforming design for relay-assisted C-RAN

AU - Li, Na

AU - Xing, Chengwen

AU - Fei, Zesong

AU - Sun, Liang

AU - Lei, Ming

PY - 2014

Y1 - 2014

N2 - In this paper, the linear minimum mean square error beamformers are designed for relay-assisted cloud radio access network (C-RAN). In C-RAN, the remote radio units are separated from the baseband units to save energy cost. To further enhance network coverage, it is a good choice to duly arrange relay nodes. Regrading the per-antenna power constraints at both the relay nodes and the remote radio heads (RRHs), the beamformer matrices at the relay nodes and RRHs are jointly optimized for the relay assisted C-RAN. Since the considered problem is a non-convex optimization problem and is with multiple variables, it is in general very hard to solve. To make the design suitable for C-RAN exploiting the problem structure, two novel decomposition algorithms are proposed. One algorithm is mainly carried out at the RRHs, another is mainly performed at the relay node. Finally in the simulations, the performance of the proposed algorithms are demonstrated.

AB - In this paper, the linear minimum mean square error beamformers are designed for relay-assisted cloud radio access network (C-RAN). In C-RAN, the remote radio units are separated from the baseband units to save energy cost. To further enhance network coverage, it is a good choice to duly arrange relay nodes. Regrading the per-antenna power constraints at both the relay nodes and the remote radio heads (RRHs), the beamformer matrices at the relay nodes and RRHs are jointly optimized for the relay assisted C-RAN. Since the considered problem is a non-convex optimization problem and is with multiple variables, it is in general very hard to solve. To make the design suitable for C-RAN exploiting the problem structure, two novel decomposition algorithms are proposed. One algorithm is mainly carried out at the RRHs, another is mainly performed at the relay node. Finally in the simulations, the performance of the proposed algorithms are demonstrated.

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DO - 10.1109/VTCSpring.2014.7022887

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SN - 0740-0551

VL - 2015-January

JO - IEEE Vehicular Technology Conference

JF - IEEE Vehicular Technology Conference

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M1 - 7022887

T2 - 2014 79th IEEE Vehicular Technology Conference, VTC 2014-Spring

Y2 - 18 May 2014 through 21 May 2014

ER -

Distributed MMSE beamforming design for relay-assisted C-RAN

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