Analysis of level crossing scintillation statistics for 0.83 µm propagation on 4.1 km path across central London

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Analysis of level crossing scintillation statistics for 0.83 µm propagation on 4.1 km path across central London

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The level crossing statistics for the measured amplitude scintillations of a 0.83 µm laser beam propagating across a 4.1 km path in central London are analysed in terms of the normalised irradiance of the received signal in dB. The level crossing probability density function, the number of times a level was crossed and the mean time duration of events are calculated for different turbulent conditions. The results are similar to ITU predictions for microwave frequencies. This study can help in the evaluation of the performance of a digital free space optical communication link.

Inspec keywords: optical communication; atmospheric light propagation; probability; scintillation; laser beams; statistical analysis

Other keywords: 0.83 micron; laser beam propagation; amplitude scintillations; level crossing PDF; mean time duration of events; level crossing scintillation statistics; turbulent conditions; normalised irradiance; probability density function; central London; 4.1 km; digital free space optical communication link

Subjects: Optical communication; Laser beam interactions and properties; Laser applications; Laser beam characteristics and interactions; Optical coherence; scintillation in inhomogeneous media; Other topics in statistics; Atmospheric laser beam propagation; Light propagation

References

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      • E. Couto de MIranda , D. Luthra , R.S. Cole . Spectral analysis of rainfall induced scintillations on a 4.1 km, 0.83µm line of sight link over London. Electron. Lett. , 1479 - 1481
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      • `Reprt 338-5', 1989.
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      • R.S. Lawrence , J.W. Strohbehn . A survey of clear-air propagation effects relevant to optical communications. Proc. IEEE , 10
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      • A. Papoulis . (1991) Probability, random variables and stochastic processes.
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