Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas

Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas

In this paper, for the first time, we propose two new solutions to boost the data rate between small connected objects such as glasses and cams and the 5th generation (5G) mobile network, based on spatial modulation, single-carrier waveform, compact reconfigurable antennas at the object side and mas...

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Main Authors: D.-T. Phan-Huy, Y. Kokar, K. Rachedi, P. Pajusco, A. Mokh, T. Magounaki, R. Masood, C. Buey, P. Ratajczak, N. Malhouroux-Gaffet, J.-M. Conrat, J.-C. Prevotet, A. Ourir, J. De Rosny, M. Crussiere, M. Helard, A. Gati, T. Sarrebourse, M. Di Renzo
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Spatial modulation (SM)
receive antenna shift keying (RASK)
beamforming
multiple input multiple output (MIMO)
reconfigurable antennas
compact antennas
Online Access:https://ieeexplore.ieee.org/document/8631105/
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spelling doaj-a3da904536944d19af64e82c5dc302ad2021-03-29T22:19:38ZengIEEEIEEE Access2169-35362019-01-017189781899310.1109/ACCESS.2019.28957548631105Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable AntennasD.-T. Phan-Huy0https://orcid.org/0000-0001-6827-2940Y. Kokar1K. Rachedi2P. Pajusco3A. Mokh4https://orcid.org/0000-0002-6276-786XT. Magounaki5R. Masood6C. Buey7P. Ratajczak8N. Malhouroux-Gaffet9J.-M. Conrat10J.-C. Prevotet11A. Ourir12J. De Rosny13M. Crussiere14https://orcid.org/0000-0003-3669-5695M. Helard15A. Gati16T. Sarrebourse17M. Di Renzo18Orange Labs Networks, Châtillon, FranceINSA Rennes, CNRS, Institut d’Electronique et de Télécommunication de Rennes, UMR 6164, University of Rennes 1, Rennes, FranceEcole Supérieure de Physique et de Chimie Industrielle, CNRS, Institut Langevin, Paris, FranceInstitut Mines Telecom Atlantique, Brest, FranceINSA Rennes, CNRS, Institut d’Electronique et de Télécommunication de Rennes, UMR 6164, University of Rennes 1, Rennes, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceINSA Rennes, CNRS, Institut d’Electronique et de Télécommunication de Rennes, UMR 6164, University of Rennes 1, Rennes, FranceEcole Supérieure de Physique et de Chimie Industrielle, CNRS, Institut Langevin, Paris, FranceEcole Supérieure de Physique et de Chimie Industrielle, CNRS, Institut Langevin, Paris, FranceINSA Rennes, CNRS, Institut d’Electronique et de Télécommunication de Rennes, UMR 6164, University of Rennes 1, Rennes, FranceINSA Rennes, CNRS, Institut d’Electronique et de Télécommunication de Rennes, UMR 6164, University of Rennes 1, Rennes, FranceOrange Labs Networks, Châtillon, FranceOrange Labs Networks, Châtillon, FranceLaboratoire des Signaux et Systèmes, CNRS, University of Paris-Saclay, CentraleSupélec, University of Paris-Sud, Gif-sur-Yvette, FranceIn this paper, for the first time, we propose two new solutions to boost the data rate between small connected objects such as glasses and cams and the 5th generation (5G) mobile network, based on spatial modulation, single-carrier waveform, compact reconfigurable antennas at the object side and massive multiple input multiple output (M-MIMO) at the network side. In the first new wireless communication system, a “transmitting object” uses transmit spatial modulation with a compact reconfigurable antenna and a constant envelop amplifier to transmit in high data rate with low complexity and low power consumption. The space-time digital processing capability of the M-MIMO 5G base station is used to detect such signal. In the second new wireless communication system, a “receiving object” uses receive spatial modulation, a compact multiport antenna and a low complexity detection algorithm to receive in high data rate with a low complexity signal processing. The space-time beamforming capability of the M-MIMO 5G base stations is exploited to deliver a signal that is pre-equalized enough to be detected by the object. For the first time, we present experiments showing that M-MIMO allows for the re-introduction of single-carrier modulation waveform. For the first time, we present performance results obtained with real existing compact antennas and compact reconfigurable antennas, showing that the two new communication systems outperform conventional modulation in terms of energy efficiency and complexity.https://ieeexplore.ieee.org/document/8631105/Spatial modulation (SM)receive antenna shift keying (RASK)beamformingmultiple input multiple output (MIMO)reconfigurable antennascompact antennas
collection DOAJ
language English
format Article
sources DOAJ
author D.-T. Phan-Huy
Y. Kokar
K. Rachedi
P. Pajusco
A. Mokh
T. Magounaki
R. Masood
C. Buey
P. Ratajczak
N. Malhouroux-Gaffet
J.-M. Conrat
J.-C. Prevotet
A. Ourir
J. De Rosny
M. Crussiere
M. Helard
A. Gati
T. Sarrebourse
M. Di Renzo
spellingShingle D.-T. Phan-Huy
Y. Kokar
K. Rachedi
P. Pajusco
A. Mokh
T. Magounaki
R. Masood
C. Buey
P. Ratajczak
N. Malhouroux-Gaffet
J.-M. Conrat
J.-C. Prevotet
A. Ourir
J. De Rosny
M. Crussiere
M. Helard
A. Gati
T. Sarrebourse
M. Di Renzo
Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
IEEE Access
Spatial modulation (SM)
receive antenna shift keying (RASK)
beamforming
multiple input multiple output (MIMO)
reconfigurable antennas
compact antennas
author_facet D.-T. Phan-Huy
Y. Kokar
K. Rachedi
P. Pajusco
A. Mokh
T. Magounaki
R. Masood
C. Buey
P. Ratajczak
N. Malhouroux-Gaffet
J.-M. Conrat
J.-C. Prevotet
A. Ourir
J. De Rosny
M. Crussiere
M. Helard
A. Gati
T. Sarrebourse
M. Di Renzo
author_sort D.-T. Phan-Huy
title Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
title_short Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
title_full Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
title_fullStr Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
title_full_unstemmed Single-Carrier Spatial Modulation for the Internet of Things: Design and Performance Evaluation by Using Real Compact and Reconfigurable Antennas
title_sort single-carrier spatial modulation for the internet of things: design and performance evaluation by using real compact and reconfigurable antennas
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description In this paper, for the first time, we propose two new solutions to boost the data rate between small connected objects such as glasses and cams and the 5th generation (5G) mobile network, based on spatial modulation, single-carrier waveform, compact reconfigurable antennas at the object side and massive multiple input multiple output (M-MIMO) at the network side. In the first new wireless communication system, a “transmitting object” uses transmit spatial modulation with a compact reconfigurable antenna and a constant envelop amplifier to transmit in high data rate with low complexity and low power consumption. The space-time digital processing capability of the M-MIMO 5G base station is used to detect such signal. In the second new wireless communication system, a “receiving object” uses receive spatial modulation, a compact multiport antenna and a low complexity detection algorithm to receive in high data rate with a low complexity signal processing. The space-time beamforming capability of the M-MIMO 5G base stations is exploited to deliver a signal that is pre-equalized enough to be detected by the object. For the first time, we present experiments showing that M-MIMO allows for the re-introduction of single-carrier modulation waveform. For the first time, we present performance results obtained with real existing compact antennas and compact reconfigurable antennas, showing that the two new communication systems outperform conventional modulation in terms of energy efficiency and complexity.
topic Spatial modulation (SM)
receive antenna shift keying (RASK)
beamforming
multiple input multiple output (MIMO)
reconfigurable antennas
compact antennas
url https://ieeexplore.ieee.org/document/8631105/
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