Research Article
Year 2023,
, 68 - 75, 31.05.2023
Abstract
In this study, error analysis of a reconfigurable intelligence surface assisted dual-branch selection combining communication system with additive white generalized Gaussian noise conditions is investigated. The considered system model is assumed to be in Rayleigh fading channels, and the error analysis is performed based on the probability density function. As a result of the analysis, an approximate error expression was derived and various scenarios were presented with different system parameter values.
References
- Ma, H., Zhang, H., Zhang, N., Wang, J., Wang N., & Leung, V. C. M. (2022). Reconfigurable intelligent surface with energy harvesting assisted cooperative ambient back scatter communications, IEEE Wireless Communications Letters, 11(6), 1283-1287.
- H. Du et al., (2022). Performance and optimization of reconfigurable intelligent surface aided THz communications, IEEE Transactions on Communications, 70(5), 3575-3593.
- Basar, E., DiRenzo, M., De Rosny, J., Debbah, M., Alouini, M.-S., & Zhang, R. (2019). Wireless communications through reconfigurable intelligent surfaces, IEEE Access, 7, 116753-116773.
- Yang, L. et al., (2020). Accurate closed-form approximations to channel distributions of RIS-aided wireless systems, IEEE Wireless Communications Letters, 9(11), 1985-1989.
- Mao S. et al., (2022). Reconfigurable intelligent surface-assisted secure mobile edge computing networks, IEEE Transactions on Vehicular Technology, 71(6), 6647-6660.
- Faisal K. M. & Choi, W. (2022). Machine learning approaches for reconfigurable intelligent surfaces: a survey, IEEE Access, 10, 27343-27367.
- Khatalin S. (2009). Performance of dual-branch selection combining diversity systems in non-identical Nakagami-q (Hoyt) fading channels, IET Communications, 4(5), 585-595.
- Bilim, M. (2021). Dual-branch SC wireless systems with HQAM for beyond 5G over η-μ fading channels, Peer-to-Peer Networking and Applications, 14(1), 305-318.
- Bilim M. & Kapucu, N. (2020). Error analysis of dual-branch sımo systems over λ-μ fading channels, 2020 28th Signal Processing and Communications Applications Conference (SIU), 1-4.
- DiRenzo M. & Lu, W. (2015). On thediversity order of selection combining dual-branch dual-hop AF relaying in a Poisson field of ınterferers at the destination, IEEE Transactions on Vehicular Technology, 64(4), 1620-1628.
- Haghani S. & Beaulieu, N. C. (2009). On decorrelation in dual-branch diversity systems, IEEE Transactions on Communications, 57(7), 2138-2147.
- Du, Z., Cheng J. & Beaulieu, N. C. (2008). Asymptotic error rate analysis of dual-branch diversity over correlated Rician channels, IEEE Transactions on Communications, 56,4, 527-530.
- Zhu B. & Cheng, J. (2019). Asymptotic outage analysis on dual-branch diversity receptions over non-ıdentically distributed correlated lognormal channels, IEEE Transactions on Communications, 67(10), 7126-7138.
- Salahat, E. & Hakam, A. (2014). Novel unified expressions for error rates and ergodic channel capacity analysis over generalized fading subjectto AWGGN, IEEE Global Communications Conference, 3976-3982.
- Bilim, M. (2020). Up link communications with AWGGN over non-homogeneous fading channels, Physical Communication, 39, 101047.
- Gümüş D., & Bilim M. (2022). RIS destekli kablosuz bir haberleşme sisteminin AWGGN analizi, 30. Sinyal işleme ve İletişim Uygulamaları Sempozyumu (SIU), 1-4.
- Özen, C. & Bilim M. (2022). Kaskat bir sistemin FTR sönümlenmeli kanallarda HQAM performans analizi, NÖHÜ Müh. Bilim. Dergisi, 11(2), 258-263.
- Gradshteyn, I. S., & Ryzhik, I. M. (2007). Tables of Integrals, Series and Products, 7th ed., San Diego, CA: Academic.
Year 2023,
, 68 - 75, 31.05.2023
Abstract
Bu çalışmada, iki kollu seçme birleştirme tekniğini kullanan uyarlanabilir akıllı yüzey destekli bir haberleşme sisteminin eklenebilir beyaz genelleştirilmiş Gauss gürültüsü koşullarında hata analizi incelenmiştir. Ele alınan sistem modelinin Rayleigh sönümlü kanallarda olduğu varsayılmış ve hata analizi olasılık yoğunluk fonksiyonu temel alınarak gerçekleştirilmiştir. Yapılan analiz sonucunda yaklaşık bir hata ifadesi türetilmiş ve farklı sistem parametre değerleri ile çeşitli senaryolar sunulmuştur.
References
- Ma, H., Zhang, H., Zhang, N., Wang, J., Wang N., & Leung, V. C. M. (2022). Reconfigurable intelligent surface with energy harvesting assisted cooperative ambient back scatter communications, IEEE Wireless Communications Letters, 11(6), 1283-1287.
- H. Du et al., (2022). Performance and optimization of reconfigurable intelligent surface aided THz communications, IEEE Transactions on Communications, 70(5), 3575-3593.
- Basar, E., DiRenzo, M., De Rosny, J., Debbah, M., Alouini, M.-S., & Zhang, R. (2019). Wireless communications through reconfigurable intelligent surfaces, IEEE Access, 7, 116753-116773.
- Yang, L. et al., (2020). Accurate closed-form approximations to channel distributions of RIS-aided wireless systems, IEEE Wireless Communications Letters, 9(11), 1985-1989.
- Mao S. et al., (2022). Reconfigurable intelligent surface-assisted secure mobile edge computing networks, IEEE Transactions on Vehicular Technology, 71(6), 6647-6660.
- Faisal K. M. & Choi, W. (2022). Machine learning approaches for reconfigurable intelligent surfaces: a survey, IEEE Access, 10, 27343-27367.
- Khatalin S. (2009). Performance of dual-branch selection combining diversity systems in non-identical Nakagami-q (Hoyt) fading channels, IET Communications, 4(5), 585-595.
- Bilim, M. (2021). Dual-branch SC wireless systems with HQAM for beyond 5G over η-μ fading channels, Peer-to-Peer Networking and Applications, 14(1), 305-318.
- Bilim M. & Kapucu, N. (2020). Error analysis of dual-branch sımo systems over λ-μ fading channels, 2020 28th Signal Processing and Communications Applications Conference (SIU), 1-4.
- DiRenzo M. & Lu, W. (2015). On thediversity order of selection combining dual-branch dual-hop AF relaying in a Poisson field of ınterferers at the destination, IEEE Transactions on Vehicular Technology, 64(4), 1620-1628.
- Haghani S. & Beaulieu, N. C. (2009). On decorrelation in dual-branch diversity systems, IEEE Transactions on Communications, 57(7), 2138-2147.
- Du, Z., Cheng J. & Beaulieu, N. C. (2008). Asymptotic error rate analysis of dual-branch diversity over correlated Rician channels, IEEE Transactions on Communications, 56,4, 527-530.
- Zhu B. & Cheng, J. (2019). Asymptotic outage analysis on dual-branch diversity receptions over non-ıdentically distributed correlated lognormal channels, IEEE Transactions on Communications, 67(10), 7126-7138.
- Salahat, E. & Hakam, A. (2014). Novel unified expressions for error rates and ergodic channel capacity analysis over generalized fading subjectto AWGGN, IEEE Global Communications Conference, 3976-3982.
- Bilim, M. (2020). Up link communications with AWGGN over non-homogeneous fading channels, Physical Communication, 39, 101047.
- Gümüş D., & Bilim M. (2022). RIS destekli kablosuz bir haberleşme sisteminin AWGGN analizi, 30. Sinyal işleme ve İletişim Uygulamaları Sempozyumu (SIU), 1-4.
- Özen, C. & Bilim M. (2022). Kaskat bir sistemin FTR sönümlenmeli kanallarda HQAM performans analizi, NÖHÜ Müh. Bilim. Dergisi, 11(2), 258-263.
- Gradshteyn, I. S., & Ryzhik, I. M. (2007). Tables of Integrals, Series and Products, 7th ed., San Diego, CA: Academic.
There are 18 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | May 31, 2023 |
| Submission Date | July 4, 2022 |
| Acceptance Date | December 3, 2022 |
| Published in Issue | Year 2023 |