Chaotic Free-Space Laser Communication over Turbulent Channel

A. R. Volkovskii; C. Williams; C. W. Wu; D. R. Frey; G. Kolumban; H. Fujisaka; H. Torikai; L. Illing; L. Kocarev; L. C. Andrews; M. A. Vorontsov; M. M. Sushchik; N. F. Rulkov; N. F. Rulkov; N. F. Rulkov; P. Celka; P. Celka; P. Colet; S. M. Rytov; T. L. Carroll; T. L. Carroll; T. L. Carroll; U. Feldmann; Yu. A. Kravtsov; Yu. A. Kravtsov

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Chaotic Free-Space Laser Communication over Turbulent Channel

Authors: A. R. Volkovskii
C. Williams
C. W. Wu
D. R. Frey
G. Kolumban
H. Fujisaka
H. Torikai
L. Illing
L. Kocarev
L. C. Andrews
M. A. Vorontsov
M. M. Sushchik
N. F. Rulkov
N. F. Rulkov
N. F. Rulkov
P. Celka
P. Celka
P. Colet
S. M. Rytov
T. L. Carroll
T. L. Carroll
T. L. Carroll
U. Feldmann
Yu. A. Kravtsov
Yu. A. Kravtsov
Publication date: 13 November 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The dynamics of errors caused by atmospheric turbulence in a self-synchronizing chaos based communication system that stably transmits information over a

\sim

5 km free-space laser link is studied experimentally. Binary information is transmitted using a chaotic sequence of short-term pulses as carrier. The information signal slightly shifts the chaotic time position of each pulse depending on the information bit. We report the results of an experimental analysis of the atmospheric turbulence in the channel and the impact of turbulence on the Bit-Error-Rate (BER) performance of this chaos based communication system.Comment: 4 pages, 5 figure

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