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    Journals >Study On Optical Communications >Volume 50 >Issue 2 >Page 22008801 > Article
    • Study On Optical Communications
    • Vol. 50, Issue 2, 22008801 (2024)
    Research Progress of Ultraviolet Non-direct Communication
    Ying ZHANG1, Feigang WANG1, Hua HE2, Peng SONG3, and Xizheng KE1,*
    Author Affiliations
  • 1School of Automation and Information Engineering, Xi’an University of Technology, Xi'an 710048, China
  • 2School of Communication and Information Engineering, Xi’an University of Posts and Telecommunications, Xi'an 710061, China
  • 3School of Electronic Information, Xi’an Polytechnic University, Xi'an 710600, China
    • show less
    DOI: 10.13756/j.gtxyj.2024.220088 Cite this Article
    Ying ZHANG, Feigang WANG, Hua HE, Peng SONG, Xizheng KE. Research Progress of Ultraviolet Non-direct Communication[J]. Study On Optical Communications, 2024, 50(2): 22008801 Copy Citation Text show less
    Single-scatter model[1]
    Fig. 1. Single-scatter model[1]
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    Data transfer rates for LOS and NLOS[22]
    Fig. 2. Data transfer rates for LOS and NLOS[22]
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    Multi-scatter model[25]
    Fig. 3. Multi-scatter model[25]
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    Path loss at different receiver off-axis angles[26]
    Fig. 4. Path loss at different receiver off-axis angles[26]
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    Typical NLOS communication link[1]
    Fig. 5. Typical NLOS communication link[1]
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    NLOS link model[1]
    Fig. 6. NLOS link model[1]
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    UVC NLOS with height difference[1]
    Fig. 7. UVC NLOS with height difference[1]
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    Received power at different values of θ1 and θ2[30]
    Fig. 8. Received power at different values of θ1 and θ2[30]
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    Impulse response after multiple scattering[26]
    Fig. 9. Impulse response after multiple scattering[26]
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    Transmit and receive elevation angles and pulse broadening[31]
    Fig. 10. Transmit and receive elevation angles and pulse broadening[31]
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    Transmittance of different visibility and transmission distance[36]
    Fig. 11. Transmittance of different visibility and transmission distance[36]
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    The topology of the UVC network[1]
    Fig. 12. The topology of the UVC network[1]
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    The trilateration positioning algorithm[30]
    Fig. 13. The trilateration positioning algorithm[30]
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    Triangulation schematic[30]
    Fig. 14. Triangulation schematic[30]
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    Node chain topology (exposed terminals)[43]
    Fig. 15. Node chain topology (exposed terminals)[43]
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    Node chained topology throughput[44]
    Fig. 16. Node chained topology throughput[44]
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    Node chain topology fairness index[44]
    Fig. 17. Node chain topology fairness index[44]
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    UV sensor node model[50]
    Fig. 18. UV sensor node model[50]
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    Comparison of average communication energy consumption[51]
    Fig. 19. Comparison of average communication energy consumption[51]
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    Abstract
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    References (51)
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    Ying ZHANG, Feigang WANG, Hua HE, Peng SONG, Xizheng KE. Research Progress of Ultraviolet Non-direct Communication[J]. Study On Optical Communications, 2024, 50(2): 22008801
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