Araştırma Makalesi
BibTex RIS Kaynak Göster

Alamouti Uzay-Zaman Blok Kodlamalı İHA-Yardımlı NOMA-Tabanlı Haberleşme Ağı

Yıl 2022, , 967 - 973, 01.10.2022
https://doi.org/10.2339/politeknik.874319

Öz

Bu çalışmada İnsansız Hava Aracı (İHA) yardımıyla oluşturulmuş aşağı yönde Dikgen Olmayan Çoklu Erişim (DOÇE) temelli ve 3 kullanıcılı bir sistem ağı düşünülmüştür. Ağda İHA yerdeki kullanıcıların her biri ile Alamouti Uzay-Zaman Blok Kodlama (A-UZBK) tekniğini kullanarak 2 anten üzerinden haberleşmektedir. Ayrıca kullanıcıların tek antenli ve iki antenli olarak tasarlandığı düşünülen 2 farklı haberleşme senaryosu üzerinde durulmuştur. Bu çalışmada A-UZBK tekniğinin İHA destekli aşağı yönde DOÇE temelli haberleşme ağlarında kullanımının ve ağda bulunan yerdeki alıcılarda ve vericide anten çeşitlemesinin artmasının sistemin performansına etkilerini anlamak amacıyla simülasyonlar gerçekleştirilmiştir. Önerilen haberleşme sisteminin performansını kıyaslamak amacıyla, İHA ve yerdeki kullanıcıların tek anten olarak tasarlandığı bir aşağı yönde DOÇE ağı kullanılmıştır. Yapılan Monte-Carlo simülasyon sonuçlarında, sistemde A-UZBK tekniğinin kullanılması ve çeşitlemenin arttırılmasıyla birlikte Yol Kaybı (YK) ve çevresel faktörlerden kaynaklı bozucu etkenlerin hata performansı üzerine etkileri incelenmiştir. Özellikle yüksek Sinyal-Gürültü Oranı (SGO) değerlerinde bu bozucu etkenlerin hata performansı üzerine etkilerinin oldukça minimize edildiği gözlemlenmiştir. Ayrıca, sistemde A-UZBK tekniği kullanımı ve çeşitlemenin artması, oldukça iyi seviyede SNR kazancı sağlamıştır. Dahası, İHA-Destekli aşağı yönde NOMA-Tabanlı iletişim sisteminde A-STBC tekniği kullanıldığında tam çeşitleme kazancının elde edilebileceği gözlemlenmiştir.

Kaynakça

  • [1] Li X., "Deployment of Drone Base Stations for Cellular Communication Without Apriori User Distribution Information," 2018 37th Chinese Control Conference (CCC), Wuhan,7274-7281, (2018).
  • [2] Peng G., Xia Y., Zhang X. and Bai L., "UAV-aided Networks for Emergency Communications in Areas with Unevenly Distributed Users," 2018 IEEE International Conference on Communication Systems (ICCS), Chengdu, China, 25-29, (2018).
  • [3] Liu Y., Qin Z., Elkashlan M., Ding Z., Nallanathan A. and L. Hanzo, "Non-orthogonal Multiple Access for 5G and Beyond," in Proceedings of the IEEE, 105(12): 2347-2381, (2017).
  • [4] Islam S. M. R., Avazov N., Dobre O. A. and Kwak K., "Power-Domain Non-Orthogonal Multiple Access (NOMA) in 5G Systems: Potentials and Challenges," in IEEE Communications Surveys & Tutorials, 19(2):721-742, (2017).
  • [5] Sohail M. F., Leow C. Y. and Won S., "Non-Orthogonal Multiple Access for Unmanned Aerial Vehicle Assisted Communication," in IEEE Access, 6: 22716-22727, (2018).
  • [6] Ayrancı A. A., Bacanlı E. and İlhan H., "Performance Analysis of NOMA in Drone Communication," 2019 11th International Conference on Electrical and Electronics Engineering (ELECO), Bursa, Turkey, 1070-1074, (2019).
  • [7] Sohail M. F. and Leow C. Y., "Maximized fairness for NOMA based drone communication system," 2017 IEEE 13th Malaysia International Conference on Communications (MICC), Johor Bahru, 119-123, (2017).
  • [8] Zaidi S. K., Hasan S. F., Gui X., Siddique N. and Ahmad S., "Exploiting UAV as NOMA based Relay for Coverage Extension," 2019 2nd International Conference on Computer Applications & Information Security (ICCAIS), Riyadh, Saudi Arabia, 1-5, (2019).
  • [9] Han A., Lv T. and Zhang X., "Outage Performance of NOMA-based UAV-Assisted Communication with Imperfect SIC," 2019 IEEE Wireless Communications and Networking Conference (WCNC), Marrakesh, Morocco, 1-6, (2019).
  • [10] Alamouti S. M., "A simple transmit diversity technique for wireless communications," in IEEE Journal on Selected Areas in Communications,16(8):1451-1458, (1998).
  • [11] Toka M. and Kucur O., "Non-Orthogonal Multiple Access With Alamouti Space–Time Block Coding," in IEEE Communications Letters, 22(9):1954-1957, (2018).
  • [12] Tang Z., Wang J., and Song J., "Harvesting both rate gain and diversity gain: Combination of NOMA with the Alamouti scheme," 2017 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB), Cagliari, 1-3, (2017).
  • [13] Li M., Yuan H., Yue X., Muhaidat S., Maple C. and Dianati M., "Secrecy Outage Analysis for Alamouti Space–Time Block Coded Non-Orthogonal Multiple Access," in IEEE Communications Letters, 24(7):1405-1409, (2020).
  • [14] Toka M. and Kucur O., "Performance Analysis of OSTBC-NOMA System in the presence of Practical Impairments," in IEEE Transactions on Vehicular Technology, 69(9):1-10, (2020).
  • [15] Fereidountabar A., Cardarilli G. C., Di Nunzio L., Fazzolari R., “UAV Channel Estimation with STBC in MIMO Systems”, The International Conference on Advanced Wireless, Information, and Communication Technologies, Procedia Computer Science, Elsevier, 73: 426 – 434, (2015).
  • [16] Al-Hourani A., Kandeepan S. and Jamalipour A., "Modeling air-to-ground path loss for low altitude platforms in urban environments," 2014 IEEE Global Communications Conference, Austin, TX, 2898-2904, (2014).
  • [17] Al-Hourani A., Kandeepan S. and Lardner S., "Optimal LAP Altitude for Maximum Coverage," in IEEE Wireless Communications Letters, 3(6):569-572, (2014).
  • [18] Mozaffari M., Saad W., Bennis M. and Debbah M., "Unmanned Aerial Vehicle With Underlaid Device-to-Device Communications: Performance and Tradeoffs," in IEEE Transactions on Wireless Communications, 15(6): 3949-3963, (2016).
  • [19] Yang L. and Zhang Q. T., "Performance Analysis of MIMO Relay Wireless Networks With Orthogonal STBC," in IEEE Transactions on Vehicular Technology, 59(7):3668-3674, (2010).
  • [20] Usman M.R., Khan A., Usman M.A., Jang Y.S. and Shin S.Y. "On the Performance of Perfect and Imperfect SIC in Downlink Non-Orthogonal Multiple Access," 2016 International Conference on Smart Green Technology in Electrical and Information Systems (ICSGTEIS), Bali, 102-106, (2016).

UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding

Yıl 2022, , 967 - 973, 01.10.2022
https://doi.org/10.2339/politeknik.874319

Öz

In this study, a 3-user system was considered in the Unmanned Aerial Vehicle-Assisted (UAV-Assisted) Non-Orthogonal Multiple Access-Based (NOMA-Based) communication network. In the network, UAV communicates with users on the ground via two antennas using the Alamouti Space-Time Block Coding (A-STBC) technique. It is considered that there are two separate scenarios where user links are designed with one antenna and two antenna systems. In the study, Monte-Carlo simulations were carried out to understand the effects of using the A-STBC technique in UAV-Assisted NOMA-Based communication networks and increased antenna diversity in receiver and transmitter in the network to the performance of the system. For the benchmark, the downlink NOMA network was used, where the receivers and the UAV are designed with a single antenna. In the simulation results, with the A-STBC technique in the system and increase in diversity, the effects of Path Loss (PL) and environmental factors on error performance were examined. Especially in high Signal to Noise Ratio (SNR) values, it has been observed that the effects of these destructive factors on error performance are highly minimized. Also, the use of A-STBC technique and the increase in diversity in the system provided considerable SNR gain. Moreover, it has been observed that full diversity gain can be achieved when the A-STBC technique is used in the UAV-Assisted downlink NOMA-Based communication system.

Kaynakça

  • [1] Li X., "Deployment of Drone Base Stations for Cellular Communication Without Apriori User Distribution Information," 2018 37th Chinese Control Conference (CCC), Wuhan,7274-7281, (2018).
  • [2] Peng G., Xia Y., Zhang X. and Bai L., "UAV-aided Networks for Emergency Communications in Areas with Unevenly Distributed Users," 2018 IEEE International Conference on Communication Systems (ICCS), Chengdu, China, 25-29, (2018).
  • [3] Liu Y., Qin Z., Elkashlan M., Ding Z., Nallanathan A. and L. Hanzo, "Non-orthogonal Multiple Access for 5G and Beyond," in Proceedings of the IEEE, 105(12): 2347-2381, (2017).
  • [4] Islam S. M. R., Avazov N., Dobre O. A. and Kwak K., "Power-Domain Non-Orthogonal Multiple Access (NOMA) in 5G Systems: Potentials and Challenges," in IEEE Communications Surveys & Tutorials, 19(2):721-742, (2017).
  • [5] Sohail M. F., Leow C. Y. and Won S., "Non-Orthogonal Multiple Access for Unmanned Aerial Vehicle Assisted Communication," in IEEE Access, 6: 22716-22727, (2018).
  • [6] Ayrancı A. A., Bacanlı E. and İlhan H., "Performance Analysis of NOMA in Drone Communication," 2019 11th International Conference on Electrical and Electronics Engineering (ELECO), Bursa, Turkey, 1070-1074, (2019).
  • [7] Sohail M. F. and Leow C. Y., "Maximized fairness for NOMA based drone communication system," 2017 IEEE 13th Malaysia International Conference on Communications (MICC), Johor Bahru, 119-123, (2017).
  • [8] Zaidi S. K., Hasan S. F., Gui X., Siddique N. and Ahmad S., "Exploiting UAV as NOMA based Relay for Coverage Extension," 2019 2nd International Conference on Computer Applications & Information Security (ICCAIS), Riyadh, Saudi Arabia, 1-5, (2019).
  • [9] Han A., Lv T. and Zhang X., "Outage Performance of NOMA-based UAV-Assisted Communication with Imperfect SIC," 2019 IEEE Wireless Communications and Networking Conference (WCNC), Marrakesh, Morocco, 1-6, (2019).
  • [10] Alamouti S. M., "A simple transmit diversity technique for wireless communications," in IEEE Journal on Selected Areas in Communications,16(8):1451-1458, (1998).
  • [11] Toka M. and Kucur O., "Non-Orthogonal Multiple Access With Alamouti Space–Time Block Coding," in IEEE Communications Letters, 22(9):1954-1957, (2018).
  • [12] Tang Z., Wang J., and Song J., "Harvesting both rate gain and diversity gain: Combination of NOMA with the Alamouti scheme," 2017 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB), Cagliari, 1-3, (2017).
  • [13] Li M., Yuan H., Yue X., Muhaidat S., Maple C. and Dianati M., "Secrecy Outage Analysis for Alamouti Space–Time Block Coded Non-Orthogonal Multiple Access," in IEEE Communications Letters, 24(7):1405-1409, (2020).
  • [14] Toka M. and Kucur O., "Performance Analysis of OSTBC-NOMA System in the presence of Practical Impairments," in IEEE Transactions on Vehicular Technology, 69(9):1-10, (2020).
  • [15] Fereidountabar A., Cardarilli G. C., Di Nunzio L., Fazzolari R., “UAV Channel Estimation with STBC in MIMO Systems”, The International Conference on Advanced Wireless, Information, and Communication Technologies, Procedia Computer Science, Elsevier, 73: 426 – 434, (2015).
  • [16] Al-Hourani A., Kandeepan S. and Jamalipour A., "Modeling air-to-ground path loss for low altitude platforms in urban environments," 2014 IEEE Global Communications Conference, Austin, TX, 2898-2904, (2014).
  • [17] Al-Hourani A., Kandeepan S. and Lardner S., "Optimal LAP Altitude for Maximum Coverage," in IEEE Wireless Communications Letters, 3(6):569-572, (2014).
  • [18] Mozaffari M., Saad W., Bennis M. and Debbah M., "Unmanned Aerial Vehicle With Underlaid Device-to-Device Communications: Performance and Tradeoffs," in IEEE Transactions on Wireless Communications, 15(6): 3949-3963, (2016).
  • [19] Yang L. and Zhang Q. T., "Performance Analysis of MIMO Relay Wireless Networks With Orthogonal STBC," in IEEE Transactions on Vehicular Technology, 59(7):3668-3674, (2010).
  • [20] Usman M.R., Khan A., Usman M.A., Jang Y.S. and Shin S.Y. "On the Performance of Perfect and Imperfect SIC in Downlink Non-Orthogonal Multiple Access," 2016 International Conference on Smart Green Technology in Electrical and Information Systems (ICSGTEIS), Bali, 102-106, (2016).
Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Tayfun Yılmaz 0000-0002-0507-4098

Ahmet Aytuğ Ayrancı 0000-0002-5755-5010

Emre Bacanlı 0000-0001-9944-9382

Hacı İlhan 0000-0002-6949-6126

Yayımlanma Tarihi 1 Ekim 2022
Gönderilme Tarihi 4 Şubat 2021
Yayımlandığı Sayı Yıl 2022

Kaynak Göster

APA Yılmaz, T., Ayrancı, A. A., Bacanlı, E., İlhan, H. (2022). UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding. Politeknik Dergisi, 25(3), 967-973. https://doi.org/10.2339/politeknik.874319
AMA Yılmaz T, Ayrancı AA, Bacanlı E, İlhan H. UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding. Politeknik Dergisi. Ekim 2022;25(3):967-973. doi:10.2339/politeknik.874319
Chicago Yılmaz, Tayfun, Ahmet Aytuğ Ayrancı, Emre Bacanlı, ve Hacı İlhan. “UAV-Assisted NOMA-Based Network With Alamouti Space-Time Block Coding”. Politeknik Dergisi 25, sy. 3 (Ekim 2022): 967-73. https://doi.org/10.2339/politeknik.874319.
EndNote Yılmaz T, Ayrancı AA, Bacanlı E, İlhan H (01 Ekim 2022) UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding. Politeknik Dergisi 25 3 967–973.
IEEE T. Yılmaz, A. A. Ayrancı, E. Bacanlı, ve H. İlhan, “UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding”, Politeknik Dergisi, c. 25, sy. 3, ss. 967–973, 2022, doi: 10.2339/politeknik.874319.
ISNAD Yılmaz, Tayfun vd. “UAV-Assisted NOMA-Based Network With Alamouti Space-Time Block Coding”. Politeknik Dergisi 25/3 (Ekim 2022), 967-973. https://doi.org/10.2339/politeknik.874319.
JAMA Yılmaz T, Ayrancı AA, Bacanlı E, İlhan H. UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding. Politeknik Dergisi. 2022;25:967–973.
MLA Yılmaz, Tayfun vd. “UAV-Assisted NOMA-Based Network With Alamouti Space-Time Block Coding”. Politeknik Dergisi, c. 25, sy. 3, 2022, ss. 967-73, doi:10.2339/politeknik.874319.
Vancouver Yılmaz T, Ayrancı AA, Bacanlı E, İlhan H. UAV-Assisted NOMA-Based Network with Alamouti Space-Time Block Coding. Politeknik Dergisi. 2022;25(3):967-73.
 
TARANDIĞIMIZ DİZİNLER (ABSTRACTING / INDEXING)
181341319013191 13189 13187 13188 18016 

download Bu eser Creative Commons Atıf-AynıLisanslaPaylaş 4.0 Uluslararası ile lisanslanmıştır.