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Joint transmitter-receiver spatial modulation

Joint transmitter-receiver spatial modulation
Joint transmitter-receiver spatial modulation

We propose and investigate a joint transmitterreceiver spatial modulation (JSM) scheme, which transmits information by jointly exploiting the indices of transmit antenna patterns, the indices of receiver antennas, and amplitude-phase modulation. The proposed JSM is capable of simultaneously achieving transmit diversity, receive diversity, as well as multiplexing gain. In order to facilitate the implementation of the JSM with different reliability-complexity trade-off, two types of detectors are introduced, which are the maximum-likelihood detection (MLD), and the proposed sub-optimal detection (SOD), including a two-stage SOD and a three-stage SOD. In order to gain insight into the characteristics of the JSM, we analyse the approximate and asymptotic average bit error probability of the JSM systems employing MLD, when regular-scale and large-scale JSM systems are respectively considered. Finally, the performance of the JSM systems is investigated with the aid of both simulation and numerical evaluation of our derived formulas. Our studies show that the JSM employs a high flexibility for implementation and online configuration, so as to adapt to the communications environments and to attain the best possible performance.

asymptotic analysis, average bit error probability, Multiple-input multiple-output (MIMO), signal detection, spatial modulation, transmitter preprocessing
2169-3536
6411-6423
Liu, Chaowen
3f724c73-2ff0-484e-8ec0-6ac6301a7be4
Yang, Lie Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
Wang, Wenjie
47aae26f-2f3a-458c-b2c5-d61bb95cabbc
Wang, Fasong
c748dc10-033c-4fdf-904d-0ddde515462c
Liu, Chaowen
3f724c73-2ff0-484e-8ec0-6ac6301a7be4
Yang, Lie Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
Wang, Wenjie
47aae26f-2f3a-458c-b2c5-d61bb95cabbc
Wang, Fasong
c748dc10-033c-4fdf-904d-0ddde515462c

Liu, Chaowen, Yang, Lie Liang, Wang, Wenjie and Wang, Fasong (2018) Joint transmitter-receiver spatial modulation. IEEE Access, 6, 6411-6423. (doi:10.1109/ACCESS.2018.2790959).

Record type: Article

Abstract

We propose and investigate a joint transmitterreceiver spatial modulation (JSM) scheme, which transmits information by jointly exploiting the indices of transmit antenna patterns, the indices of receiver antennas, and amplitude-phase modulation. The proposed JSM is capable of simultaneously achieving transmit diversity, receive diversity, as well as multiplexing gain. In order to facilitate the implementation of the JSM with different reliability-complexity trade-off, two types of detectors are introduced, which are the maximum-likelihood detection (MLD), and the proposed sub-optimal detection (SOD), including a two-stage SOD and a three-stage SOD. In order to gain insight into the characteristics of the JSM, we analyse the approximate and asymptotic average bit error probability of the JSM systems employing MLD, when regular-scale and large-scale JSM systems are respectively considered. Finally, the performance of the JSM systems is investigated with the aid of both simulation and numerical evaluation of our derived formulas. Our studies show that the JSM employs a high flexibility for implementation and online configuration, so as to adapt to the communications environments and to attain the best possible performance.

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More information

Accepted/In Press date: 6 January 2018
e-pub ahead of print date: 8 January 2018
Keywords: asymptotic analysis, average bit error probability, Multiple-input multiple-output (MIMO), signal detection, spatial modulation, transmitter preprocessing

Identifiers

Local EPrints ID: 419818
URI: http://eprints.soton.ac.uk/id/eprint/419818
ISSN: 2169-3536
PURE UUID: df97fc43-cb0d-4df6-9b4a-255ebd277443
ORCID for Lie Liang Yang: ORCID iD orcid.org/0000-0002-2032-9327

Catalogue record

Date deposited: 20 Apr 2018 16:31
Last modified: 07 Oct 2020 01:42

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