Researching | Performance of Heterodyne DPSK Wireless Optical Communication System Under Anisotropic Ocean Turbulence

Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 19 >Page 1901004 > Article

Laser & Optoelectronics Progress
Vol. 58, Issue 19, 1901004 (2021)

Performance of Heterodyne DPSK Wireless Optical Communication System Under Anisotropic Ocean Turbulence

Fengtao He^1、*, Ni Wang^1、**, Jianlei Zhang^1、***, Yi Yang¹, Qingjie Wang¹, and Bili Li²

Author Affiliations

¹School of Electronic Engineering, Xi'an University of Posts and Telecommunications, Xi'an , Shaanxi 710121, China

²Key Laboratory of Underwater Information and Control, China Shipbuilding Industry Corporation 705 Research Institute, Xi'an , Shaanxi 710077, China

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DOI: 10.3788/LOP202158.1901004 Cite this Article Set citation alerts

Fengtao He, Ni Wang, Jianlei Zhang, Yi Yang, Qingjie Wang, Bili Li. Performance of Heterodyne DPSK Wireless Optical Communication System Under Anisotropic Ocean Turbulence[J]. Laser & Optoelectronics Progress, 2021, 58(19): 1901004 Copy Citation Text

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Block diagram of heterodyne DPSK wireless optical communication system with Gaussian beam propagating in anisotropic ocean turbulence

Fig. 1. Block diagram of heterodyne DPSK wireless optical communication system with Gaussian beam propagating in anisotropic ocean turbulence

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Outage probability Pout of a Gaussian beam propagating in anisotropic ocean turbulence versus ω for various anisotropic factors μx, μy at η=0.8，XT=10-6 K2/s, v=10-4 m2/s, Rb=1 Gbit/s, λ=532 nm, ε=0.01 m2/s3, αs=5 mm, L=100 m, D=3 mm

Fig. 2. Outage probability

P_{o u t}

of a Gaussian beam propagating in anisotropic ocean turbulence versus

ω

for various anisotropic factors

μ_{x}

,

μ_{y}

at η=0.8，

X_{T} = 10^{- 6} K^{2} / s

,

v = 10^{- 4} m^{2} / s

,

R_{b} = 1 G b i t / s

,

λ = 532 n m

,

ε = 0.01 m^{2} / s^{3}

,

α_{s} = 5 m m

,

L = 100 m

,

D = 3 m m

Download full size

Fig. 3. Outage probability

P_{o u t}

of a Gaussian beam propagating in anisotropic ocean turbulence versus

ε

for various anisotropic factors

μ_{x}

,

μ_{y}

at ω=-1,

X_{T} = 10^{- 6} K^{2} / s

,

v = 10^{- 4} m^{2} / s

,

η = 0.8

,

R_{b} = 1 G b i t / s

,

λ = 532 n m

,

α_{s} = 5 m m

,

L = 100 m

,

D = 3 m m

Download full size

Fig. 4. Outage probability

P_{o u t}

of a Gaussian beam propagating in anisotropic ocean turbulence versus

X_{T}

for various anisotropic factors

μ_{x}

,

μ_{y}

at

ε = 0.01 m^{2} / s^{3}

,

v = 10^{- 4} m^{2} / s

,

η = 0.8

,

R_{b} = 1 G b i t / s

,

λ = 532 n m

,

ω = - 1

,

α_{s} = 5 m m

,

L = 100 m

,

D = 3 m m

Download full size

Fig. 5. Outage probability

P_{o u t}

of a Gaussian beam propagating in anisotropic ocean turbulence versus the anisotropic factor in

x

direction

μ_{x}

for various

L

at

X_{T} = 10^{- 6} K^{2} / s

,

v = 10^{- 4} m^{2} / s

,

η = 0.8

,

R_{b} = 1 G b i t / s

,

λ = 532 n m

,

ε = 0.01 m^{2} / s^{3}

,

ω = - 1

,

α_{s} = 5 m m

,

μ_{y} = 2

,

D = 3 m m

Download full size

Fig. 6. Outage probability

P_{o u t}

a Gaussian beam propagating in anisotropic ocean turbulence versus the anisotropic factor in

x

direction for various

μ_{x}

at

X_{T} = 10^{- 6} K^{2} / s

,

v = 10^{- 4} m^{2} / s

,

η = 0.8

,

λ = 532 n m

,

ε = 0.01 m^{2} / s^{3}

,

ω = - 1

,

α_{s} = 5 m m

,

L = 100 m

,

μ_{y} = 2

,

D = 3 m m

Download full size

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Fengtao He, Ni Wang, Jianlei Zhang, Yi Yang, Qingjie Wang, Bili Li. Performance of Heterodyne DPSK Wireless Optical Communication System Under Anisotropic Ocean Turbulence[J]. Laser & Optoelectronics Progress, 2021, 58(19): 1901004

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