Nonlinear Sciences – Chaotic Dynamics
Scientific paper
1994-03-09
Nonlinear Sciences
Chaotic Dynamics
In REVTeX format, followed by uuencoded, compressed ".tar.Z" file which includes Postscript version of manuscript and 5 Postsc
Scientific paper
It is frequently asserted that in a chaotic system two initially close points will separate at an exponential rate governed by the largest global Lyapunov exponent. Local Lyapunov exponents, however, are more directly relevant to predictability. The difference between the local and global Lyapunov exponents, the large variations of local exponents over an attractor, and the saturation of error growth near the size of the attractor---all result in non-exponential scalings in errors at both short and long prediction times, sometimes even obscuring evidence of exponential growth. Failure to observe exponential error scaling cannot rule out deterministic chaos as an explanation. We demonstrate a simple model that quantitatively predicts observed error scaling from the local Lyapunov exponents, for both short and surprisingly long times. We comment on the relevance to atmospheric predictability as studied in the meteorological literature.
"Sid" Sidorowich J. J.
Abarbanel Henry D. I.
Kennel Matthew B.
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