Leakage-based Transceiver Designs for MIMO Interfering Broadcast Channels

Piya Patcharamaneepakorn; Angela Doufexi; Simon M D Armour

doi:10.1109/WCSP.2013.6677194

Leakage-based Transceiver Designs for MIMO Interfering Broadcast Channels

Piya Patcharamaneepakorn, Angela Doufexi, Simon M D Armour

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

2 Citations (Scopus)

Abstract

This paper presents linear transceiver designs for MIMO interfering broadcast channels (MIMO IFBC). A new global objective, referred to as a Total Signal-to-Leakage-plus-Noise Ratio (TSLNR), is proposed and is solved based on alternating optimisation. The algorithm is also proven to converge. The proposed objective is further modified into an Individual SLNR (ISLNR) to relax the requirement of global channel state information (CSI). High-performance practical linear transceivers are also given and are shown to achieve near-theoretical performance. Moreover, robust designs of the proposed algorithms in the presence of imperfect CSI are presented. The advantages of the proposed algorithms are also illustrated through simulations.

Original language	English
Title of host publication	IEEE WCSP 2013, Hangzhou, China
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
Number of pages	6
DOIs	https://doi.org/10.1109/WCSP.2013.6677194
Publication status	Published - Oct 2013

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Alumni Foundation Postgraduate Travel Grant
Patcharamaneepakorn, P. (Recipient), Oct 2013
Prize: Prizes, Medals, Awards and Grants

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@inproceedings{d1f26670eda446adbc09bbd321ddba42,

title = "Leakage-based Transceiver Designs for MIMO Interfering Broadcast Channels",

abstract = "This paper presents linear transceiver designs for MIMO interfering broadcast channels (MIMO IFBC). A new global objective, referred to as a Total Signal-to-Leakage-plus-Noise Ratio (TSLNR), is proposed and is solved based on alternating optimisation. The algorithm is also proven to converge. The proposed objective is further modified into an Individual SLNR (ISLNR) to relax the requirement of global channel state information (CSI). High-performance practical linear transceivers are also given and are shown to achieve near-theoretical performance. Moreover, robust designs of the proposed algorithms in the presence of imperfect CSI are presented. The advantages of the proposed algorithms are also illustrated through simulations.",

author = "Piya Patcharamaneepakorn and Angela Doufexi and Armour, {Simon M D}",

year = "2013",

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doi = "10.1109/WCSP.2013.6677194",

language = "English",

booktitle = "IEEE WCSP 2013, Hangzhou, China",

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T1 - Leakage-based Transceiver Designs for MIMO Interfering Broadcast Channels

AU - Patcharamaneepakorn, Piya

AU - Doufexi, Angela

AU - Armour, Simon M D

PY - 2013/10

Y1 - 2013/10

N2 - This paper presents linear transceiver designs for MIMO interfering broadcast channels (MIMO IFBC). A new global objective, referred to as a Total Signal-to-Leakage-plus-Noise Ratio (TSLNR), is proposed and is solved based on alternating optimisation. The algorithm is also proven to converge. The proposed objective is further modified into an Individual SLNR (ISLNR) to relax the requirement of global channel state information (CSI). High-performance practical linear transceivers are also given and are shown to achieve near-theoretical performance. Moreover, robust designs of the proposed algorithms in the presence of imperfect CSI are presented. The advantages of the proposed algorithms are also illustrated through simulations.

AB - This paper presents linear transceiver designs for MIMO interfering broadcast channels (MIMO IFBC). A new global objective, referred to as a Total Signal-to-Leakage-plus-Noise Ratio (TSLNR), is proposed and is solved based on alternating optimisation. The algorithm is also proven to converge. The proposed objective is further modified into an Individual SLNR (ISLNR) to relax the requirement of global channel state information (CSI). High-performance practical linear transceivers are also given and are shown to achieve near-theoretical performance. Moreover, robust designs of the proposed algorithms in the presence of imperfect CSI are presented. The advantages of the proposed algorithms are also illustrated through simulations.

U2 - 10.1109/WCSP.2013.6677194

DO - 10.1109/WCSP.2013.6677194

M3 - Conference Contribution (Conference Proceeding)

BT - IEEE WCSP 2013, Hangzhou, China

PB - Institute of Electrical and Electronics Engineers (IEEE)

ER -

Leakage-based Transceiver Designs for MIMO Interfering Broadcast Channels

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Prizes

Alumni Foundation Postgraduate Travel Grant

Cite this