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    Journals >Acta Photonica Sinica >Volume 51 >Issue 10 >Page 1006005 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 10, 1006005 (2022)
    Performance Analysis of Polarized Ultraviolet Positioning System in Atmospheric Turbulence(Invited)
    Lin QIAO1、*, Chunyan LI1, Dou LUO1, Weilong LI2, Gengpeng LI1, and Qi TANG1
    Author Affiliations
  • 1School of Electronics Engineering,Xi'an University of Posts & Telecommunications,Xi'an 710121,China
  • 2Institute of Photonics and Photon-technology,Northwest University,Xi'an 710127,China
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    DOI: 10.3788/gzxb20225110.1006005 Cite this Article
    Lin QIAO, Chunyan LI, Dou LUO, Weilong LI, Gengpeng LI, Qi TANG. Performance Analysis of Polarized Ultraviolet Positioning System in Atmospheric Turbulence(Invited)[J]. Acta Photonica Sinica, 2022, 51(10): 1006005 Copy Citation Text show less
    Single scattering model of NLOS polarized ultraviolet light
    Fig. 1. Single scattering model of NLOS polarized ultraviolet light
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    The influence of each angle on the received light intensity
    Fig. 2. The influence of each angle on the received light intensity
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    The relationship between received light intensity and positioning distance
    Fig. 3. The relationship between received light intensity and positioning distance
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    PDF of NLOS sight instantaneous received light radiation intensity at different distances
    Fig. 4. PDF of NLOS sight instantaneous received light radiation intensity at different distances
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    PDF of NLOS instantaneous received light radiation intensity in different turbulence
    Fig. 5. PDF of NLOS instantaneous received light radiation intensity in different turbulence
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    Variation of path loss with positioning distance in different turbulence
    Fig. 6. Variation of path loss with positioning distance in different turbulence
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    System outage probability in different environments
    Fig. 7. System outage probability in different environments
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    The influence of system transmitter and receiver elevation angle change on outage probability
    Fig. 8. The influence of system transmitter and receiver elevation angle change on outage probability
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    ParameterValueParameterValue
    Wavelength266 nmUV light source power200 mW
    Scattering particle radius0.07 μmDetector active area(Ar1.92 cm2
    Rayleigh scattering coefficient(Ksr0.32×10-3/mRayleigh extinction coefficient(Ker1.38×10-3/m
    Mie scattering Coefficient(Ksm0.28×10-3/mMie extinction Coefficient(Kem0.42×10-3/m
    Total scattering coefficient(Ks0.6×10-3/mTotal absorption coefficient(Ka1.2×10-3/m
    Table 1. Main simulation parameters of the system
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    Abstract
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    Figures&Tables (9)
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    References (25)
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    Lin QIAO, Chunyan LI, Dou LUO, Weilong LI, Gengpeng LI, Qi TANG. Performance Analysis of Polarized Ultraviolet Positioning System in Atmospheric Turbulence(Invited)[J]. Acta Photonica Sinica, 2022, 51(10): 1006005
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