Optimal decoding for hard-decision forwarding aided cooperative spatial multiplexing systems

Kyungchun Lee; Lajos Hanzo

doi:10.1109/TWC.2009.080804

Optimal decoding for hard-decision forwarding aided cooperative spatial multiplexing systems

Kyungchun Lee, Lajos Hanzo

Dept. of Electrical and Information Engineering

University of Southampton

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

5 Scopus citations

Abstract

In this letter, the optimal decoding strategy for cooperative spatial multiplexing (CSM) aided systems is derived. In CSM systems, the multiple relay stations (RSs), which compose a virtual antenna array (VAA), independently decode the packets received from the mobile stations (MS) and forward them to the base station (BS). When the BS decodes the signal forwarded from the RSs, the potential decoding errors encountered at the RSs will result in erroneous forwarding, but their effects are mitigated by the proposed solution. Our simulation results show that when the relay link has a significantly higher signal-tonoise ratio than the direct link, the proposed decoding algorithm achieves an approximately 3 dB better performance than conventional CSM, which does not consider the deleterious effects of erroneous forwarding from the RSs.

Original language	English
Article number	5285157
Pages (from-to)	4411-4416
Number of pages	6
Journal	IEEE Transactions on Wireless Communications
Volume	8
Issue number	9
DOIs	https://doi.org/10.1109/TWC.2009.080804
State	Published - Sep 2009

Keywords

Cooperative communication
Multiple-input multiple-output (MIMO) system
Virtual array antenna

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10.1109/TWC.2009.080804

Cite this

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abstract = "In this letter, the optimal decoding strategy for cooperative spatial multiplexing (CSM) aided systems is derived. In CSM systems, the multiple relay stations (RSs), which compose a virtual antenna array (VAA), independently decode the packets received from the mobile stations (MS) and forward them to the base station (BS). When the BS decodes the signal forwarded from the RSs, the potential decoding errors encountered at the RSs will result in erroneous forwarding, but their effects are mitigated by the proposed solution. Our simulation results show that when the relay link has a significantly higher signal-tonoise ratio than the direct link, the proposed decoding algorithm achieves an approximately 3 dB better performance than conventional CSM, which does not consider the deleterious effects of erroneous forwarding from the RSs.",

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AB - In this letter, the optimal decoding strategy for cooperative spatial multiplexing (CSM) aided systems is derived. In CSM systems, the multiple relay stations (RSs), which compose a virtual antenna array (VAA), independently decode the packets received from the mobile stations (MS) and forward them to the base station (BS). When the BS decodes the signal forwarded from the RSs, the potential decoding errors encountered at the RSs will result in erroneous forwarding, but their effects are mitigated by the proposed solution. Our simulation results show that when the relay link has a significantly higher signal-tonoise ratio than the direct link, the proposed decoding algorithm achieves an approximately 3 dB better performance than conventional CSM, which does not consider the deleterious effects of erroneous forwarding from the RSs.

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Optimal decoding for hard-decision forwarding aided cooperative spatial multiplexing systems

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Keywords

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