Multiple transmitter performance with appropriate amplitude modulation for free-space optical communication

The propagation of a free-space optical communications signal through atmospheric turbulence experiences random fluctuations in intensity, including signal fades, which negatively impact the performance of the communications link. The gamma-gamma probability density function is commonly used to mode...

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Veröffentlicht in:	Applied Optics 2011-08, Vol.50 (24), p.4737-4745
Hauptverfasser:	Tellez, Jason A, Schmidt, Jason D
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Sprache:	eng
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container_title	Applied Optics
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creator	Tellez, Jason A Schmidt, Jason D
description	The propagation of a free-space optical communications signal through atmospheric turbulence experiences random fluctuations in intensity, including signal fades, which negatively impact the performance of the communications link. The gamma-gamma probability density function is commonly used to model the scintillation of a single beam. One proposed method to reduce the occurrence of scintillation-induced fades at the receiver plane involves the use of multiple beams propagating through independent paths, resulting in a sum of independent gamma-gamma random variables. Recently an analytical model for the probability distribution of irradiance from the sum of multiple independent beams was developed. Because truly independent beams are practically impossible to create, we present here a more general but approximate model for the distribution of beams traveling through partially correlated paths. This model compares favorably with wave-optics simulations and highlights the reduced scintillation as the number of transmitted beams is increased. Additionally, a pulse-position modulation scheme is used to reduce the impact of signal fades when they occur. Analytical and simulated results showed significantly improved performance when compared to fixed threshold on/off keying.
doi_str_mv	10.1364/AO.50.004737
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title	Multiple transmitter performance with appropriate amplitude modulation for free-space optical communication
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