Information Technology Reference
In-Depth Information
[27] A. N. Kolmogorov, “Local structure of turbulence in an incompressible liquid for very large
Reynolds numbers,”
Comptes Rendus (Dokl.) Acad. Sci. URSS (N.S.)
26
, 115-118 (1941);
“A refinement of previous hypotheses concerning the local structure of turbulence in a
viscous incompressible fluid at high Reynolds number,”
J. Fluid Mech
.
13
, 82-85 (1962).
[28] H. A. Kramers, “Brownian motion in a field of force and the diffusion model of chemical
reactions,”
Physica
7
, 284 (1940).
[29] P. Langevin,
Comptes Rendus Acad. Sci. Paris
146
, 530 (1908).
[30] K. Lindenberg and B. J. West,
The Nonequilibrium Statistical Mechanics of Open and
Closed Systems
, New York: VCH Publishers (1990).
[31] M. Longuet-Higgins, “The effect of non-linearities on statistical distributions in the theory
of sea waves,”
J. Fluid Mech
.
17
, 459 (1963); “Statistical properties of an isotropic random
surface,”
Phil. Trans. Roy. Soc. London A
250
, 158 (1957).
[32] R. Mannella, P. Grigolini and B. J. West, “A dynamical approach to fractional Brownian
motion,”
Fractals
2
, 81-124 (1994).
[33] G. Margolin and E. Barkai, “Single-molecule chemical reactions: reexamination of the
Kramers approach,”
Phys. Rev. E
72
, 025101 (2005).
[34] E. W. Montroll and B. J. West, “On an enriched collection of stochastic processes,” in
Fluctuations Phenomena
, 2nd edn., eds. E. W. Montroll and J. L. Lebowitz, Amsterdam:
North-Holland (1987); first published in 1979.
[35] F. Moss and K. Wiesenfeld, “The benefits of background noise,”
Sci. Am
.
273
, 66-69 (1995).
[36] F. Moss, L. M. Ward and W. G. Sannita, “Stochastic resonance and sensory information
processing,”
Clin. Neurophysiol
.
115
, 267-281 (2004).
[37] C. Nicolis and G. Nicolis, “Is there a climate attractor?,”
Nature
311
, 529-532 (1984).
[38] C. K. Peng, J. Mietus, J. M. Hausdorff
et al.
, “Long-range autocorrelations and non-
Gaussian behavior in the heartbeat,”
Phys. Rev. Lett.
70
, 1343 (1993).
[39] J. Perrin,
Brownian Movement and Molecular Reality
, London: Taylor and Francis (1910).
[40] J. W. Strutt (Lord Rayleigh),
Phil. Mag
.
X
, 73-78 (1880); in
Scientific Papers
,Vol.I,New
York: Dover Publications (1880), pp. 491-496.
[41] L. F. Richardson, “Atmospheric diffusion shown on a distance-neighbor graph,”
Proc. Roy.
Soc. London Ser. A
110
, 709-725 (1926).
[42] D. Ruelle,
Chaotic Evolution and Strange Attractors
, Cambridge: Cambridge University
Press (1989).
[43] G. E. Uhlenbeck and L. S. Ornstein, “On the theory of Brownian motion,”
Phys. Rev
.
36
,
823 (1930).
[44] B. Veber, M. Nagode and M. Fajdiga, “Generalized renewal process for repairable systems
based on finite Weibull mixture,”
Reliability Eng. and System Safety
93
, 1461 (2008).
[45] J. N. Weiss, A. Garfinkel, M. L. Spano and W. L. Ditto, “Chaos control for cardiac
arrhythmias,” in
Proc. 2nd Experimental Chaos Conference
, eds. W. Ditto, L. Pecora,
M. Shlesinger, M. Spano and S. Vohra, Singapore: World Scientific (1995).
[46] B. J. West and A. L. Goldberger, “Physiology in fractal dimensions,”
Am. Sci.
75
, 354-364
(1987).
[47] B. J. West, “Physiology in fractal dimensions: error tolerance,”
Ann. Biomed. Eng.
18
,
135-149 (1990).
[48] B. J. West,
Where Medicine Went Wrong
, Singapore: World Scientific (2006).
[49] F. G. Zeng, Q. Fu and R. Morse,
Brain Res. Inter
.
869
, 251 (2000).