A System Simulation Framework for Modeling Space Modulation Techniques

Space modulation techniques (SMTs) are multiple-input multiple-output based communication systems that recently gained definitions for a family of hardware implementations. As such, several new components, such as radio frequency (RF) switches, combiners, and splitters, are needed to efficiently imp...

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Veröffentlicht in:	IEEE systems journal 2020-03, Vol.14 (1), p.1435-1446
Hauptverfasser:	Hiari, Omar, Mesleh, Raed, Al-Khatib, Abdullah
Format:	Artikel
Sprache:	eng
Schlagworte:	Baseband Channel estimation Communications systems Computer simulation Hardware MIMO communication Modelling Modulation Radio frequency Simulation Simulink space modulation space modulation techniques (SMTs) spatial modulation Switches Synchronism Transmitters Wireless communication
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creator	Hiari, Omar Mesleh, Raed Al-Khatib, Abdullah
description	Space modulation techniques (SMTs) are multiple-input multiple-output based communication systems that recently gained definitions for a family of hardware implementations. As such, several new components, such as radio frequency (RF) switches, combiners, and splitters, are needed to efficiently implement variant SMT transmitters. Besides, existing techniques for channel estimation and frame synchronization need to be redesigned considering the specific nature of SMT operation. In order to make these implementations realizable, various studies need to be conducted to analyze system performance and potential hardware effects. Modeling SMTs using simulation can provide an appropriate medium to achieve that exactly. Moreover, modeling hardware using simulations has been proven already in the past, to reduce development cycles and to minimize costly mistakes. In this paper, a baseband modeling framework for a family of eight SMT transmitter hardware system models is defined and explained. The models are based on Simulink and leverage the RF Blockset toolbox. The bit error performance of the models is also verified against analytical bounds.
doi_str_mv	10.1109/JSYST.2019.2899677
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subjects	Baseband Channel estimation Communications systems Computer simulation Hardware MIMO communication Modelling Modulation Radio frequency Simulation Simulink space modulation space modulation techniques (SMTs) spatial modulation Switches Synchronism Transmitters Wireless communication
title	A System Simulation Framework for Modeling Space Modulation Techniques
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