Signal Demodulation Method in the PD-NOMA System Using a Nonlinear Algorithm with Successive Cancellation of Demodulated Components

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Somente assinantes

Resumo

A method for signal demodulation in a system with power-domain non-orthogonal multiple access is proposed. The method implements the principle of successive cancellation of demodulated components taking into account the variance of the estimation error and using a nonlinear function. The results of simulation of the proposed method in a cellular communication system are presented: the use of the proposed method allows an improvement by 1–3.5 dB compared to known algorithms, depending on the power ratio of signals transmitted by three user terminals.

Sobre autores

V. Kreindelin

Moscow Technical University of Communications and Informatics

Email: vitkrend@gmail.com
Moscow, 111024 Russia

L. Varukina

Moscow Technical University of Communications and Informatics

Autor responsável pela correspondência
Email: vitkrend@gmail.com
Moscow, 111024 Russia

Bibliografia

  1. Yuan Y., Yuan Z., Tian L. // IEEE Commun. Magaz. 2020. V. 58. № 7. P. 90.
  2. Liu Y., Qin Z., Ding Z. Non-Orthogonal Multiple Access for Massive Connectivity. N.Y.: Springer, 2020.
  3. Luo F.-L., Zhang J. Signal Processing for 5G. Algorithms and Implementations. Chichester: John Wiley & Sons Ltd, 2016.
  4. Wai W.K., Tsui C.Y., Cheng R.S. // Proc. IEEE Wireless Communication and Networking Conf. (WCNC). 2000. N.Y.: IEEE, 2000. V. 1. P. 310. https://www.researchgate.net/publication/285507183_A_low_complexity_V-BLASTSTBC_detection_algorithm_for_MIMO_ system.
  5. Охрименко А.А., Крюков Я.В., Покаместов Д.А. // Тр. XV Междунар. научн.-практич. конф. “Электронные средства и системы управления”. Томск. 20–22 нояб. 2019. Томск.: ТГУ, 2019. С. 28.
  6. Al-Imari M., Xiao P., Imran M.A., Tafazolli R. // Proc. 11th Int. Symp. on Wireless Commun. Systems (ISWCS). Barcelona. 26–29 Aug. 2014. N.Y.: IEEE, 2014. P. 781.
  7. Yan C., Harada A., Benjebbour A. et al. // Proc. 2015 IEEE 81st Vehicular Technology Conf. (VTC Spring). Glasgow. 11–14 May. N.Y.: IEEE, 2015. Paper № 7146043. https://doi.org/10.1109/VTCSpring.2015.7146043
  8. Hussain M., Rasheed H. // Hindawi Wireless Commun. and Mobile Computing. 2020. V. 2020. Article ID 8845371. https://doi.org/10.1155/2020/8845371
  9. Saito K., Benjebbour A., Kishiyama Y. et al. // IEEE Int. Conf. on Communication Workshop (ICCW). London. 8–12 Jun. 2015. N.Y.: IEEE, 2015. P. 1161.
  10. Lin B., Tang X., Ghassemlooy Z. et al. // 2017 First South American Colloquium on Visible Light Communications (SACVLC). Santiago. 13 Nov. N.Y.: IEEE, 2017. Paper № 8267609. https://doi.org/10.1109/SACVLC.2017.8267609
  11. Mohan A. // M.Tech Seminar Report on Non Orthogonal Multiple Access. Thrissur: Government Engineering College, 2016. Reg. № TCR15ECCP01. 27 pages. https://doi.org/10.13140/RG.2.2.35859.89126
  12. Куликов Г.В., Тамбовский С.С., Савватеев Ю.И., Гребенко Ю.А. // РЭ. 2019. Т. 64. № 2. С. 152.
  13. Liu Y., Qin Z., Elkashlan M. et al. // Proc. IEEE. 2017. N.Y.: IEEE, 2017. V. 105, № 12. P. 2347.
  14. Aldabasa M., Toka M., Gökçeli S. et al. // Hindawi Wireless Commun. and Mobile Computing. 2018. V. 2018. Article ID 9713450. https://doi.org/10.1155/2018/9713450
  15. Higuchi K., Benjebbour A. // IEICE Trans. on Commun. Japan. 2015. V. E98-B. № 3. P. 403.
  16. Крейнделин В.Б. Новые методы обработки сигналов в системах беспроводной связи. СПб.: Линк, 2009.
  17. Бакулин М.Г., Крейнделин В.Б., Резнёв А.А. // РЭ. 2021. Т. 66. № 12. С. 1189.
  18. Ding Z., Liu Y., Choi J. et al. // IEEE Commun. Magaz. 2017. N.Y.: IEEE, 2017. V. 55. № 2. P. 185.
  19. Vaezi M., Ding Z., Poor H.V. Multiple Access Techniques for 5G Wireless Networks and Beyond. N.Y.: Springer, 2019.
  20. Бакулин М.Г., Крейнделин В.Б., Григорьев В.А. и др. // РЭ. 2020. Т. 65. № 3. С. 257.
  21. Yuanwei Liu, Zhang S., Mu X. et al. // 2022. https://arxiv. org/pdf/2108.04561.pdf.
  22. Moltafet M., Joda R., Mokari N. et al. // IEEE Trans. 2018. V. COM-66. № 12. P. 6463.
  23. Vaezi M., Schober R., Ding Z., Poor H.V. // IEEE Wireless Commun. N.Y.: IEEE, 2019. V. 26. № 5. P. 174.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2.

Baixar (35KB)
Metadados
3.

Baixar (253KB)
Metadados

Declaração de direitos autorais © В.Б. Крейнделин, Л.А. Варукина, 2023

Este site utiliza cookies

Ao continuar usando nosso site, você concorda com o procedimento de cookies que mantêm o site funcionando normalmente.

Informação sobre cookies