Dynamics

Download Complex Dynamics in Physiological Systems: From Heart to by Louis M. Pecora, Linda Moniz, Jonathan Nichols, Thomas L. PDF

Posted On April 11, 2017 at 6:49 pm by / Comments Off on Download Complex Dynamics in Physiological Systems: From Heart to by Louis M. Pecora, Linda Moniz, Jonathan Nichols, Thomas L. PDF

By Louis M. Pecora, Linda Moniz, Jonathan Nichols, Thomas L. Carroll (auth.), Syamal K. Dana, Prodyot K. Roy, Jürgen Kurths (eds.)

Nonlinear dynamics has turn into a major box of analysis in recent times in lots of parts of the ordinary sciences. particularly, it has power functions in biology and medication; nonlinear information research has helped to notice the growth of cardiac disorder, physiological issues, for instance episodes of epilepsy, and others. This e-book specializes in the present developments of study about the prediction of surprising cardiac demise and the onset of epileptic seizures, utilizing the nonlinear research according to ECG and EEG facts. subject matters lined comprise the research of cardiac versions and neural versions. The ebook is a set of contemporary study papers through major physicists, mathematicians, cardiologists and neurobiologists who're actively excited about utilizing the thoughts of nonlinear dynamics to discover the useful behaviours of center and mind less than basic and pathological stipulations. This assortment is meant for college kids in physics, arithmetic and scientific sciences, and researchers in interdisciplinary parts of physics and biology.

Show description

Read Online or Download Complex Dynamics in Physiological Systems: From Heart to Brain PDF

Best dynamics books

Complex dynamics. Advanced system dynamics in complex variables

Complicated Dynamics: complex method Dynamics in advanced Variables is a graduate-level monographic textbook. It has seven Chapters. The introductory bankruptcy 1 explains in simple English the target of the e-book and gives the preliminaries in advanced numbers and variables; it additionally supplies a smooth advent to quantum dynamics.

Dynamics of Algorithms

The articles accrued during this quantity symbolize the contributions provided on the IMA workshop on "Dynamics of Algorithms" which came about in November 1997. The workshop used to be an essential component of the 1997 -98 IMA software on "Emerging functions of Dynamical platforms. " The interplay among algorithms and dynamical platforms is jointly important considering the fact that dynamical equipment can be utilized to check algorithms which are utilized time and again.

Five Decades of Tackling Models for Stiff Fluid Dynamics Problems: A Scientific Autobiography

Rationality - instead of 'ad-hoc' - and asymptotics - to stress the truth that perturbative tools are on the center of the speculation - are the 2 major thoughts linked to the Rational Asymptotic Modeling (RAM) procedure in fluid dynamics while the aim is to in particular offer worthy versions obtainable to numerical simulation through high-speed computing.

Extra info for Complex Dynamics in Physiological Systems: From Heart to Brain

Example text

P. Grassberger, T. Schreiber, and C. Schaffrath, Nonlinear time sequence analysis, International Journal of Bifurcation and Chaos in Applied Sciences and Engineering, 1(3), 521 (1991). 15. M. I. Abarbanel, False neighbors and false strands: A eliable minimum embedding dimension algorithm, Physical Review, E66, 026209 (2002). 16. B. Kennel, R. I. Abarbanel, Determining embedding dimension for phase space reconstruction using the method of false nearest neighbors, Physical Review, A 45, 3403 (1992).

Yorke, and M. Casdagli, Embedology, Journal Statistical Physics, 64, 579 (1991). 6. M. L. Swinney, Independent coordinates for strange attractors from mutual information, Physical Review, A 33, 1134 (1986). 7. G. C. Fowler, A correlation function for choosing time delays in phase portrait reconstructions, Physica, D 58, 127 (1993). 8. T. J. J. De Luca, Reconstruction expansion as a geometrybased framework for choosing proper delay times, Physica, D 73, 82 (1994). 9. L. Cao, A. K. Judd, Dynamics from a multivariate time series, Physicsa, D 121, 75 (1998).

A. Penkoske, R. L. L. T. Kaplan, Evidence for determinism in ventricular fibrillation, Phys. Rev. Lett. 75, 1230 (1995). S. K. Merril, Decrease of cardiac chaos in congestive heart failure, Nature, 389, 492 (1997). 32 G. Ambika et al. 10. F. Ravelli and R. Antolini, Complex dynamics underlying the human electrocardiogram, Biol. , 67, 57 (1992). 11. B. Govindan, K. S. Gopinathan, On the evidence of deterministic chaos in ECG: Surrogate and predictability analysis, CHAOS, 8, 495 (1998). 12. L. Glass and P.

Download PDF sample

Rated 4.96 of 5 – based on 36 votes