Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

MIMO-Orthogonal space time block code system joint with BCH-TC in Rayleigh fading channel for performance of transmit antenna selection

MIMO-Orthogonal space time block code system joint with BCH-TC in Rayleigh fading channel for... To enhance the performance transmit antenna selection (TAS) of spatial modulation (SM), systems technique needs to be essential. This TAS is an effective technique for reducing the multiple input multiple output (MIMO) systems computational difficulty, and bit error rate (BER) can increase remarkably by various TAS algorithms. But these selection methods cannot provide code gain, so it is essential to join the TAS with external code to obtain cy -ode gain advantages in BER.Design/methodology/approachIn this paper, Bose–Chaudhuri–Hocquenghem (BCH)-Turbo code TC is combined with the orthogonal space time block code system.FindingsIn some existing work, the improved BER has been perceived by joining forward error correction code and space time block code (STBC) for MIMO systems provided greater code gain. The proposed work can provide increasing code gain and the effective advantages of the TAS-OSTBC system.Originality/valueTo perform the system analysis, Rayleigh channel is used. In the case with multiple TAS-OSTBC systems, better performance can provide by this new joint of the BCH-Turbo compared to the conventional Turbo code for the Rayleigh fading. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Engineering, Design and Technology Emerald Publishing

MIMO-Orthogonal space time block code system joint with BCH-TC in Rayleigh fading channel for performance of transmit antenna selection

Download PDF
16 pages

Loading next page...
 
/lp/emerald-publishing/mimo-orthogonal-space-time-block-code-system-joint-with-bch-tc-in-PUa0vEcGwX
Publisher
Emerald Publishing
Copyright
© Emerald Publishing Limited
ISSN
1726-0531
eISSN
1726-0531
DOI
10.1108/jedt-01-2021-0025
Publisher site
See Article on Publisher Site

Abstract

To enhance the performance transmit antenna selection (TAS) of spatial modulation (SM), systems technique needs to be essential. This TAS is an effective technique for reducing the multiple input multiple output (MIMO) systems computational difficulty, and bit error rate (BER) can increase remarkably by various TAS algorithms. But these selection methods cannot provide code gain, so it is essential to join the TAS with external code to obtain cy -ode gain advantages in BER.Design/methodology/approachIn this paper, Bose–Chaudhuri–Hocquenghem (BCH)-Turbo code TC is combined with the orthogonal space time block code system.FindingsIn some existing work, the improved BER has been perceived by joining forward error correction code and space time block code (STBC) for MIMO systems provided greater code gain. The proposed work can provide increasing code gain and the effective advantages of the TAS-OSTBC system.Originality/valueTo perform the system analysis, Rayleigh channel is used. In the case with multiple TAS-OSTBC systems, better performance can provide by this new joint of the BCH-Turbo compared to the conventional Turbo code for the Rayleigh fading.

Journal

Journal of Engineering, Design and TechnologyEmerald Publishing

Published: Dec 6, 2022

Keywords: Orthogonal space time block codes (OSTBC); Bit error rate (BER); Forward error correction codes (FEC); Transmit antenna selection (TAS); Bose–Chaudhuri–Hocquenghem (BCH) codes; Turbo codes (TC).

References

  • Antenna subset selection for massive MIMO systems: a trace-based sequential approach for sum rate maximization
    Abolhassani, B.; Afghah, F.; Ahmad, I.; Alfa, A.S.; An, B.; Andreev, S.; Anpalagan, A.; Arslan, H.; Ashdown, J.; Assuncao, P.; Ata, S.
  • Performance analysis of turbo codes and distributed turbo codes in Buffer-Aided relay systems
    Attarkashani, A.; Hamouda, W.; Moualeu, J.; Haghighat, J.
  • Comparative study of turbo equalization schemes using convolutional, convolutional turbo, and block-turbo codes
    Bee Leong Yeap, T.H.; Liew Hamorsky, J.; Hanzo, L.
  • Joint quantized constant envelope precoding and antenna selection for massive MU-MIMO downlink systems using Higher-Order QAM
    Chen, J.
  • Intelligent massive MIMO antenna selection using monte carlo tree search
    Chen, J.; Chen, S.; Qi, Y.; Fu, S.
  • Array gain analysis in molecular MIMO communications
    Damrath, M.; Yilmaz, H.; Chae, C.; Hoeher, P.
  • Turbo decoding of simple product codes in a two user binary adder channel employing the bahl–cocke–jelinek–raviv algorithm
    de Souza, I.; Alcoforado, M.; da Rocha, V.
  • An energy-efficient joint antenna selection and power allocation for MIMO systems under limited feedback
    Eskandari, M.; Doost Hoseini, A.; Fazel, M.
  • MIMO antenna selection using biogeography-based optimization with nonlinear migration models
    Fountoukidis, K.; Kalialakis, C.; Psannis, K.; Siakavara, K.; Goudos, S.; Sarigiannidis, P.; Obaidat, M.
  • Distributed transmit-antenna selection in variable-gain relaying systems
    González, D.; da Costa, D.; Santos Filho, J.
  • Keyless cryptosystem for secure primitive pairing of mobile devices
    Gopalakrishnan, P.; Maheswari, B.U.
  • Multiple transmit antenna selection in MIMO-OSTBC system in nakagami-m fading channel
    Hendre, V.; Murugan, M.; Chandgude, A.
  • Secure precoding aided spatial modulation via transmit antenna selection
    Huang, Y.; Wen, M.; Zheng, B.; Cheng, X.; Yang, L.; Ji, F.
  • LDPC coded massive MIMO systems
    Hwang, I.; Park, H.; Lee, J.
  • Characteristic mode analysis and design of wide band MIMO antenna consisting of
    Jabire, A.; Zheng, H.; Abdu, A.; Song, Z.
  • Antenna selection in TDD massive MIMO systems
    Jin, G.; Zhao, C.; Fan, Z.; Jin, J.
  • Low-complexity transmit antenna selection algorithm exploiting null space in spatial multiplexing UWB MIMO systems
    Kim, S.
  • Energy harvesting relay-antenna selection in cooperative MIMO/NOMA network over rayleigh fading
    Le, T.; Kong, H.
  • Performance analysis of transmit antenna selection–maximal ratio combining relay systems over non-identical channel estimation error
    Lee, D.
  • MIMO systems with antenna selection
    Molisch, A.; Win, M.
  • Ideal position and size selection of unified power flow controllers (UPFCs) to upgrade the dynamic stability of systems: an antlion optimiser and invasive weed optimisation algorithm
    Mythili, S.; Thiyagarajah, K.; Rajesh, P.; Shajin, F.H.
  • Performance improvement of MIMO-OSTBC system with BCH-TURBO code in rayleigh fading channel
    Naima, S.; Debbat, F.; Bendimerad, F.
  • Hybrid beamforming with a reduced number of phase shifters for massive MIMO systems
    Payami, S.; Ghoraishi, M.; Dianati, M.; Sellathurai, M.
  • A generic framework to enhance Two-Factor authentication
    Prakash, G.; Kannan, M.
  • A Multi-Objective hybrid algorithm for planning electrical distribution system
    Rajesh, P.; Shajin, F.
  • Optimal transmit antenna selection using improved GSA in massive MIMO technology
    Rao, I.; Malleswara Rao, V.
  • Hybrid beamforming with selection for multiuser massive MIMO systems
    Ratnam, V.; Molisch, A.; Bursalioglu, O.; Papadopoulos, H.
  • The BER analysis of MIMO system for M-PSK over different fading channels using STBC code structure
    Ravva, V.D.; McLauchlin, A.
  • Sub-optimal antenna selection in the high SNR MIMO correlated downlink channel
    Sarker, M.; Lee, M.; Chinnadurai, S.
  • Antenna selection and power allocation in massive MIMO
    Selvam, P.; Vishvaksenan, K.
  • Performance analysis of QAM schemes for non-regenerative cooperative MIMO network with transmit antenna selection
    Shaik, P.; Singya, P.; Bhatia, V.
  • Trusted secure geographic routing protocol: outsider attack detection in mobile ad hoc networks by adopting trusted secure geographic routing protocol
    Shajin, F.; Rajesh, P.
  • Two high-performance schemes of transmit antenna selection for secure spatial modulation
    Shu, F.; Wang, Z.; Chen, R.; Wu, Y.; Wang, J.
  • An iterative detection and decoding receiver for LDPC-Coded MIMO systems
    Sun, W.; Wu, W.; Yang, C.; Ueng, Y.
  • Global-Searching-Based iterative swapping antenna selection for massive MIMO systems with imperfect channel estimation
    Tang, H.; Zong, X.; Nie, Z.
  • Survey on software defect prediction techniques
    Thota, M.K.; Shajin, F.H.; Rajesh, P.
  • Antenna selection for MIMO system based on pattern recognition
    Yang, P.; Zhu, J.; Xiao, Y.; Chen, Z.
  • Joint transmit precoding and receive antenna selection for uplink multiuser massive MIMO systems
    Zhai, X.; Shi, Q.; Cai, Y.; Zhao, M.
  • Adaptive transmit antenna selection based on PCA for millimeter wave LOS MIMO channel
    Zhu, L.; Zhu, J.; Wang, S.; Zhang, J.
  • An adaptive approach for the joint antenna selection and beamforming optimization
    Zilli, G.; Pitz, C.; Batista, E.; Seara, R.; Zhu, W.