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Transmit antenna subset selection in spatial modulation relying on a realistic error-infested feedback channel

Transmit antenna subset selection in spatial modulation relying on a realistic error-infested feedback channel
Transmit antenna subset selection in spatial modulation relying on a realistic error-infested feedback channel
In this paper, we study the performance of spatial modulation (SM) employing Euclidean distance based antenna selection (EDAS) operating in a realistic error-infested feedback channel, which has hitherto only been studied under ideal feedback channel conditions. Specifically, we model the feedback channel by a bit-flip probability ?delta and study its impact on the forward link employing EDAS. We show that the erroneous feedback channel severely degrades the performance of EDAS-aided SM (EDAS-SM) system by imposing an error floor in the forward link. Furthermore, we quantify the error floors associated both with the spatial and with the conventional symbols with the aid of asymptotic symbol error rate analysis. The expressions derived for the error floors in the forward link are utilised for optimizing the feedback signalling, which are shown to help reduce the error floor levels. Furthermore, a pilot-aided selection verification (PSV) algorithm is proposed for mitigating the effects of antenna-set mismatch between the transmitter and the receiver, which eliminates the error floor in the forward link. Simulations are conducted in order to validate the theoretical results presented in the paper. Furthermore, the bit-error ratio (BER) performance of the EDAS-SM is compared to that of the conventional antenna selection (C-AS) both in the PSV as well as in the no selection verification scenarios. It is observed that EDAS-SM outperforms C-AS in both the scenarios considered. Specifically, at a BER of 10^-5, EDAS-SM is observed to give a 3dB signal-to-noise ratio gain compared to the C-AS, when operating at a spectral efficiency of 7 bits per channel use in the face of a feedback BER of delta = 0.05.
Antenna subset selection, diversity gain, erroneous feedback, Euclidean distance, error floor
2169-3536
Rajashekar, R.
d2fbbb04-57c5-4165-908f-600fc1fbdeab
Hari, K.V.S.
2da50d38-1324-4f2a-ab9e-622b8236dee6
Hanzo, L.
66e7266f-3066-4fc0-8391-e000acce71a1
Rajashekar, R.
d2fbbb04-57c5-4165-908f-600fc1fbdeab
Hari, K.V.S.
2da50d38-1324-4f2a-ab9e-622b8236dee6
Hanzo, L.
66e7266f-3066-4fc0-8391-e000acce71a1

Rajashekar, R., Hari, K.V.S. and Hanzo, L. (2017) Transmit antenna subset selection in spatial modulation relying on a realistic error-infested feedback channel. IEEE Access. (In Press)

Record type: Article

Abstract

In this paper, we study the performance of spatial modulation (SM) employing Euclidean distance based antenna selection (EDAS) operating in a realistic error-infested feedback channel, which has hitherto only been studied under ideal feedback channel conditions. Specifically, we model the feedback channel by a bit-flip probability ?delta and study its impact on the forward link employing EDAS. We show that the erroneous feedback channel severely degrades the performance of EDAS-aided SM (EDAS-SM) system by imposing an error floor in the forward link. Furthermore, we quantify the error floors associated both with the spatial and with the conventional symbols with the aid of asymptotic symbol error rate analysis. The expressions derived for the error floors in the forward link are utilised for optimizing the feedback signalling, which are shown to help reduce the error floor levels. Furthermore, a pilot-aided selection verification (PSV) algorithm is proposed for mitigating the effects of antenna-set mismatch between the transmitter and the receiver, which eliminates the error floor in the forward link. Simulations are conducted in order to validate the theoretical results presented in the paper. Furthermore, the bit-error ratio (BER) performance of the EDAS-SM is compared to that of the conventional antenna selection (C-AS) both in the PSV as well as in the no selection verification scenarios. It is observed that EDAS-SM outperforms C-AS in both the scenarios considered. Specifically, at a BER of 10^-5, EDAS-SM is observed to give a 3dB signal-to-noise ratio gain compared to the C-AS, when operating at a spectral efficiency of 7 bits per channel use in the face of a feedback BER of delta = 0.05.

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EDAS_in_non_ideal_FB_channel - Accepted Manuscript
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Accepted/In Press date: 7 October 2017
Keywords: Antenna subset selection, diversity gain, erroneous feedback, Euclidean distance, error floor
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Identifiers

Local EPrints ID: 414880
URI: http://eprints.soton.ac.uk/id/eprint/414880
ISSN: 2169-3536
PURE UUID: 517d13bf-a7d4-443f-ac76-ceb913628663
ORCID for R. Rajashekar: ORCID iD orcid.org/0000-0002-7688-7539
ORCID for L. Hanzo: ORCID iD orcid.org/0000-0002-2636-5214

Catalogue record

Date deposited: 13 Oct 2017 16:30
Last modified: 16 Mar 2024 05:49

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Contributors

Author: R. Rajashekar ORCID iD
Author: K.V.S. Hari
Author: L. Hanzo ORCID iD

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