Solution for error propagation in a noma-based VLC network: Symmetric superposition coding

Optics Express

Volumn 25, Issue 24, 2017, Pages 29856-29863

  Li, Haoyue ^a   Huang, Zhitong ^a   Xiao, Yu ^a   Zhan, Shuang ^a   Ji, Yuefeng ^a  

^a BEIJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS   (China)

Author keywords

[No Author keywords available]

Indexed keywords

DECODING; DEMODULATION; ERRORS; NETWORK CODING; OPTICAL VARIABLES MEASUREMENT; WIRELESS TELECOMMUNICATION SYSTEMS;

DECISION THRESHOLD; ERROR PROPAGATION; MULTIPLE ACCESS SCHEME; SPECTRAL EFFICIENCIES; SUCCESSIVE INTERFERENCE CANCELLATION(SIC); SUPER-POSITION CODING; VISIBLE LIGHT COMMUNICATIONS (VLC); WIRELESS COMMUNICATIONS;

VISIBLE LIGHT COMMUNICATION;

ARTICLE; LIGHT;

EID: 85035816647     PISSN: None     EISSN: 10944087     Source Type: Journal    
DOI: 10.1364/OE.25.029856     Document Type: Article

References (13)

1. H. Haas, L. Yin, Y. Wang, and C. Chen, “What is LiFi?” J. Lightwave Technol. 34(6), 1533–1544 (2016).
2. A. Benjebbour, Y. Saito, Y. Kishiyama, A. Li, A. Harada, and T. Nakamura, “Concept and practical considerations of non-orthogonal multiple access (NOMA) for future radio access,” in International Symposium on Intelligent Signal Processing and Communications Systems (IEEE, 2013), pp. 770–774.
3. L. Dai, B. Wang, Y. Yuan, S. Han, I. Chih-Lin, and Z. Wang, “Non-orthogonal multiple access for 5G: solutions, challenges, opportunities, and future research trends,” IEEE Commun. Mag. 53(9), 74–81 (2015).
4. Z. Ding, Z. Yang, P. Fan, and H. V. Poor, “On the performance of non-orthogonal multiple access in 5G systems with randomly deployed users,” IEEE Signal Process. Lett. 21(12), 1501–1505 (2014).
5. Y. Wang, B. Ren, S. Sun, S. Kang, and X. Yue, “Analysis of non-orthogonal multiple access for 5G,” China Commun. 13(Supplement2), 52–66 (2016).
6. Z. Ding, P. Fan, and H. V. Poor, “Impact of user pairing on 5G nonorthogonal multiple-access downlink transmissions,” IEEE Trans. Vehicular Technol. 65(8), 6010–6023 (2016).
7. A. Benjebbour, A. Li, Y. Saito, Y. Kishiyama, A. Harada, and T. Nakamura, “System-level performance of downlink NOMA for future LTE enhancements,” in Globecom Workshops (IEEE, 2013), pp. 66–70.
8. L. Lei, D. Yuan, C. K. Ho, and S. Sun, “Power and channel allocation for non-orthogonal multiple access in 5G systems: Tractability and computation,” IEEE Trans. Wirel. Commun. 15(12), 8580–8594 (2016).
9. L. Yin, W. O. Popoola, X. Wu, and H. Haas, “Performance evaluation of non-orthogonal multiple access in visible light communication,” IEEE Trans. Commun. 64(12), 5162–5175 (2016).
10. H. Marshoud, V. M. Kapinas, G. K. Karagiannidis, and S. Muhaidat, “Non-orthogonal multiple access for visible light communications,” IEEE Photonics Technol. Lett. 28(1), 51–54 (2016).
11. B. Lin, W. Ye, X. Tang, and Z. Ghassemlooy, “Experimental demonstration of bidirectional NOMA-OFDMA visible light communications,” Opt. Express 25(4), 4348–4355 (2017).
12. A. Benjebbour, K. Saito, A. Li, Y. Kishiyama, and T. Nakamura, “Non-orthogonal multiple access (NOMA): Concept, performance evaluation and experimental trials,” in International Conference on Wireless Networks and Mobile Communications (IEEE, 2015), pp. 1–6.
13. S. R. Islam, N. Avazov, O. A. Dobre, and K. S. Kwak, “Power-domain non-orthogonal multiple access (NOMA) in 5G systems: potentials and challenges,” IEEE Commun. Surveys Tuts. 19(2), 721–742 (2017).