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A Primer in Bifurcation Theory for Computational Cell Biologists Lecture 3: Hopf Bifurcation

A Primer in Bifurcation Theory for Computational Cell Biologists Lecture 3: Hopf Bifurcation. http://www.biology.vt.edu/faculty/tyson/lectures.php. John J. Tyson Virginia Polytechnic Institute & Virginia Bioinformatics Institute. Click on icon to start audio. Signal-Response Curve =

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A Primer in Bifurcation Theory for Computational Cell Biologists Lecture 3: Hopf Bifurcation

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  1. A Primer in BifurcationTheoryfor Computational Cell BiologistsLecture 3: Hopf Bifurcation http://www.biology.vt.edu/faculty/tyson/lectures.php John J. Tyson Virginia Polytechnic Institute & Virginia Bioinformatics Institute Click on icon to start audio

  2. Signal-Response Curve = One-parameter Bifurcation Diagram • Saddle-Node (bistability, hysteresis) • Hopf Bifurcation (oscillations) • Subcritical Hopf • Cyclic Fold • Saddle-Loop • Saddle-Node Invariant Circle

  3. Stability Analysis of Steady States and eigenvectors of the Jacobian matrix.

  4. If det(J) = 0, then l= 0 is an eigenvalue, and the steady state is a saddle-node. p = pSN p < pSN p > pSN det(J) = 0

  5. Hopf Bifurcation If J has a pair of complex conjugate eigenvalues, l = Re(l) ± i Im(l), and Re(l) = 0,then the steady state is undergoing a Hopf bifurcation. Super-critical Hopf bifurcation Sub-critical Hopf bifurcation

  6. The Hopf Bifurcation Theorem. Suppose that at p = pH the Jacobian matrix has a pair of complex conjugate eigenvalues, l = Re(l) ± i Im(l), with Re(l) = 0 and dRe(l)/dp > 0. Then, for |p-pH|sufficiently small, there exists a one-parameter family of small amplitude limit cycles for one of the following three conditions: (1) p > pH, in which case the limit cycles are stable. (2) p < pH, in which case the limit cycles are unstable. (3) p = pH, in which case the limit cycles are neutral. Comments. Case (3) is unusual (‘structurally unstable’). In cases (1) and (2), the limit cycles are parameterized by the distance from the bifurcation point: |p-pH|. The amplitude of the limit cycle grows like SQRT(|p – pH|), and the period of the limit cycle is close to 2p/Im(l).

  7. Subcritical Hopf Bifurcation max x min unstable limit cycle p uss uss sss sss Supercritical Hopf Bifurcation max x min stable limit cycle p

  8. How to follow a periodic solution? x(t) 1 0 t = t/T Hopf’s theorem tells us how to approximate the periodic solution for |p – pH| sufficiently small in terms of sin(wt) and cos(wt), where w = Im(l). Use this initial guess to compute the exact periodic solution and then follow the solution as p changes. Numerical Bifurcation Theory How to locate a Hopf bifurcation? When following a steady state as p changes, simply look for Re(l) = 0

  9. Stability of Periodic Solutions The stability of a periodic solution is determined by its “Floquet Multipliers”. Let P be a plane that is transverse to the periodic solution at a particular point: P Let y0 = x(0)-x0 be a small initial displacement in P from the periodic solution at x0. Starting at y0, integrate the ODEs forward in time until you return to P at point y1 = x(T)-x0. This procedure defines a nonlinear mapping yk+1 = Y(yk), which can be…

  10. Im(m) Re(m) Period-doubling bifurcation Torus bifurcation Cyclic-fold bifurcation (See Kuznetsov, Section 5.3) …linearized: yk+1 = Myk . The eigenvalues mi of the matrix M are known as the Floquet multipliers of the periodic solution. The periodic solution is stable if all the multipliers lie within the unit circle in the complex plane

  11. Subcritical Hopf Bifurcation Cyclic Fold Period-doubling A typical bifurcation diagram slc 1 5 slc ulc 3 ulc uss x sss 4 2 p

  12. References • Strogatz, Nonlinear Dynamics and Chaos (Addison Wesley) • Kuznetsov, Elements of Applied Bifurcation Theory (Springer) • XPP-AUT www.math.pitt.edu/~bard/xpp • Oscill8 http://oscill8.sourceforge.net

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