Transceiver design for non-regenerative MIMO relay systems with decision feedback detection

Andrew Paul Millar, Stephan Weiss

Research output: Contribution to conferencePaper

1 Citation (Scopus)

Abstract

In this paper we consider the design of zero forcing (ZF) and minimum mean square error (MMSE) transceivers for non-regenerative multiple input multiple output (MIMO) relay networks. Our designs utilise linear processors at each stage of the network along with a decision feedback detection device at the receiver. Under the assumption of full channel state information (CSI) across the entire link the processors are jointly optimised to minimise the system arithmetic mean square error (MSE) whilst meeting average power constraints at both the source and the relay terminals. We compare the presented methods to linear designs available in the literature and show the advantages of the proposed transceivers through simulation results.
LanguageEnglish
Pages402-406
Number of pages5
Publication statusPublished - 23 Aug 2010
Event18th European Signal Processing Conference - Aalborg, Denmark
Duration: 23 Aug 201028 Aug 2010

Conference

Conference18th European Signal Processing Conference
CityAalborg, Denmark
Period23/08/1028/08/10

Fingerprint

Transceivers
Feedback
Mean square error
Channel state information

Keywords

  • signal processing
  • relay system
  • transceiver design

Cite this

Millar, A. P., & Weiss, S. (2010). Transceiver design for non-regenerative MIMO relay systems with decision feedback detection. 402-406. Paper presented at 18th European Signal Processing Conference, Aalborg, Denmark, .
Millar, Andrew Paul ; Weiss, Stephan. / Transceiver design for non-regenerative MIMO relay systems with decision feedback detection. Paper presented at 18th European Signal Processing Conference, Aalborg, Denmark, .5 p.
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abstract = "In this paper we consider the design of zero forcing (ZF) and minimum mean square error (MMSE) transceivers for non-regenerative multiple input multiple output (MIMO) relay networks. Our designs utilise linear processors at each stage of the network along with a decision feedback detection device at the receiver. Under the assumption of full channel state information (CSI) across the entire link the processors are jointly optimised to minimise the system arithmetic mean square error (MSE) whilst meeting average power constraints at both the source and the relay terminals. We compare the presented methods to linear designs available in the literature and show the advantages of the proposed transceivers through simulation results.",
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Millar, AP & Weiss, S 2010, 'Transceiver design for non-regenerative MIMO relay systems with decision feedback detection' Paper presented at 18th European Signal Processing Conference, Aalborg, Denmark, 23/08/10 - 28/08/10, pp. 402-406.

Transceiver design for non-regenerative MIMO relay systems with decision feedback detection. / Millar, Andrew Paul; Weiss, Stephan.

2010. 402-406 Paper presented at 18th European Signal Processing Conference, Aalborg, Denmark, .

Research output: Contribution to conferencePaper

TY - CONF

T1 - Transceiver design for non-regenerative MIMO relay systems with decision feedback detection

AU - Millar, Andrew Paul

AU - Weiss, Stephan

PY - 2010/8/23

Y1 - 2010/8/23

N2 - In this paper we consider the design of zero forcing (ZF) and minimum mean square error (MMSE) transceivers for non-regenerative multiple input multiple output (MIMO) relay networks. Our designs utilise linear processors at each stage of the network along with a decision feedback detection device at the receiver. Under the assumption of full channel state information (CSI) across the entire link the processors are jointly optimised to minimise the system arithmetic mean square error (MSE) whilst meeting average power constraints at both the source and the relay terminals. We compare the presented methods to linear designs available in the literature and show the advantages of the proposed transceivers through simulation results.

AB - In this paper we consider the design of zero forcing (ZF) and minimum mean square error (MMSE) transceivers for non-regenerative multiple input multiple output (MIMO) relay networks. Our designs utilise linear processors at each stage of the network along with a decision feedback detection device at the receiver. Under the assumption of full channel state information (CSI) across the entire link the processors are jointly optimised to minimise the system arithmetic mean square error (MSE) whilst meeting average power constraints at both the source and the relay terminals. We compare the presented methods to linear designs available in the literature and show the advantages of the proposed transceivers through simulation results.

KW - signal processing

KW - relay system

KW - transceiver design

UR - http://www.eurasip.org/Proceedings/Eusipco/Eusipco2010/Contents/papers/1569292961.pdf

M3 - Paper

SP - 402

EP - 406

ER -

Millar AP, Weiss S. Transceiver design for non-regenerative MIMO relay systems with decision feedback detection. 2010. Paper presented at 18th European Signal Processing Conference, Aalborg, Denmark, .

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