lecture 10: non-linear dynamical systems - part...
TRANSCRIPT
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Principles of stability and bifurcation in simple non-linear dynamical systems
Lecture 10: Non-linear Dynamical Systems - Part 2
R. Ranganathan Green Center for Systems Biology, ND11.120E
Albert Libchaber 1934 -
Edward Lorenz 1917-2008
Henri Poincare 1854 - 1912
Robert May
1936 -
Mitchell Feigenbaum 1944 -
Joseph-Louis LaGrange 1736 - 1813
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So, today we explore the truly astounding emergent complexity inherent in even simple non-linear dynamical systems.
Linear
Nonlinear
n = 1
n = 2 or 3
n >> 1
continuum
exponential growth and decay
single step conformational change
fluorescence emission
pseudo first order kinetics
fixed points
bifurcations, multi stability
irreversible hysteresis
overdamped oscillators
second order reaction kinetics
linear harmonic oscillators
simple feedback control
sequences of conformational change
anharmomic oscillators
relaxation oscillations
predator-prey models
van der Pol systems
Chaotic systems
electrical circuits
molecular dynamics
systems of coupled harmonic oscillators
equilibrium thermodynamics
diffraction, Fourier transforms
systems of non-linear oscillators
non-equilibrium thermodynamics
protein structure/function
neural networks
the cell
ecosystems
Diffusion
Wave propagation
quantum mechanics
viscoelastic systems
Nonlinear wave propagation
Reaction-diffusion in dissipative systems
Turbulent/chaotic flows
adapted from S. Strogatz
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So, today:
(1) A reminder of the van der Pol oscillator - a small non-linear system that illustrates analysis of stability, limit cycle oscillations, and bifurcation.
(2) Concepts of local linearization and formal analyses of stability and bifurcation. Examples in the classic van der Pol oscillator, the Fitzhigh-Nagumo model, and perhaps a higher order system.
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The general solution to second-order linear system…
…a vector of initial conditionsgiven
….where A is the characteristic matrix. It’s properties control all behaviors of the system
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Properties of the characteristic matrix…
…the eigenvalues of A are completely determined by the trace and determinant…
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…stability is determined by the real part of the eigenvalue…
System behaviors: the second order linear case
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We know how to analyze the behavior….right?
Seeing behaviors: the linear harmonic oscillator
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Eigenvalues are pure imaginary….so centers!
Seeing behaviors: the linear harmonic oscillator
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Eigenvalues are pure imaginary….so centers!
And…remember the system nullclines, which help us sketch the behavior in the phase space…
Seeing behaviors: the linear harmonic oscillator
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A non-linear oscillator...
Here is the non-linearity….with mu controlling the degree of non-linearity.
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Re-writing the equations in a more intuitive way....
A non-linear oscillator...
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A non-linear oscillator...
, where
Now, we compute fixed points and nullclines and sketch the behavior in the x, y space….
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A non-linear oscillator...
, where
Fixed point at origin. At any non-zero (x, y) the system has a limit cycle oscillation…
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A non-linear oscillator...
, where
Fixed point at origin. At any non-zero (x, y) the system has a limit cycle oscillation…
A closed orbit that another trajectory spirals into as time goes to infinity…
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A non-linear oscillator...
, where
The limit cycle shows the property of a large divergence of time scales….
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A non-linear oscillator...
, where
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
a network of elementary passive and active components
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
a network of elementary passive and active components
things that use but do not produce energy
(resistor)
(capacitor)
(inductor)
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
a network of elementary passive and active components
voltage and current sources
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
here, there is also a non-linear resistor…with a cubic response function
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
because of the chain rule…
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
we can simplify this using our basic voltage equation for the non-linear resistor…
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
if we choose a =1 and b = 1/3….
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
if we choose a =1 and b = 1/3….
starting to look like our usual van der Pol system…
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An electrical circuit implementation of the van der Pol oscillator…
A non-linear oscillator...
if we choose a =1 and b = 1/3….
and, taking the derivative….
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
this is the differential equation that controls our system…
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
And now for a little magic. I will re-scale time so that
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Based on Kirchhoff’s voltage law…
A non-linear oscillator...
, or….
, where…
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A non-linear oscillator...
, where…
Remember the basic van der Pol oscillator equation?
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A non-linear oscillator...
, where…
Remember the basic van der Pol oscillator equation?
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A non-linear oscillator...
…the actual implementation of our non-linear resistor element, with appropriate choices of R1-R5 to get a=1, b=1/3, and the effective net resistance to be R
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A non-linear oscillator...
, where…
now…let’s carry out stability and bifurcation analysis of this system
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A non-linear oscillator...
, where…
again, a re-writing of our equation to represent the phase space…and we know the fixed point:
To study the stability of the fixed point, we carry out a local linearization…and then look at the flow.
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A general non-linear system…
and let’s say
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A general non-linear system…
and let’s say
that is, (x*,y*) is a fixed point
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
Similar thing for the disturbance v….
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
…and in matrix form,
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
…and ignoring the quadratic and higher order terms, since they are tiny….
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
…this is the locally linearized form of our general non-linear system…
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
this matrix is called the Jacobian, and evaluated at the fixed point (x*,y*), tells us about the flow of the system in the local environment…
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A general non-linear system…
and let’s say
Now, we introduce a disturbance around the fixed point….
To see if the disturbance grows or not, we look at the derivatives…
the Jacobian. In this form, this matrix is just like the characteristic matrix for a linear system, right? So, we know how to analyze its behavior…
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A non-linear oscillator...
, where…
At the fixed point….
And what are the eigenvalues? Remember that stability is about the sign of the real part of the system eigenvalues…
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A non-linear oscillator...
, where…
At the fixed point….
The trace of the Jacobian is epsilon, and so the system is stable for negative values and unstable for positive…
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A non-linear oscillator...
, where…
At the fixed point….
So, for a van der Pol oscillator, the system loses stability at the place where the real part of the system eigenvalues go from negative to positive….such an event is called a Hopf bifurcation
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A non-linear oscillator...
, where…
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The neuronal action potential…a slight variation on the van der Pol oscillator…
A non-linear oscillator...
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A non-linear oscillator...
this is essentially the van der Pol oscillator, with one difference….
Fitzhugh-Nagumo (1962)
membrane pot
slow K+ flux
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A non-linear oscillator...
the linear term to the w nullcline provides for thresholded oscillation….
membrane pot
slow K+ flux
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A non-linear oscillator...
the linear term to the w nullcline provides for thresholded oscillation….a stable fixed point destabilized to produce relaxation oscillations. We will look at this more closely next time…
membrane pot
slow K+ flux
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Next, we will further analyze the simple non-linear oscillator systems…
Linear
Nonlinear
n = 1
n = 2 or 3
n >> 1
continuum
exponential growth and decay
single step conformational change
fluorescence emission
pseudo first order kinetics
fixed points
bifurcations, multi stability
irreversible hysteresis
overdamped oscillators
second order reaction kinetics
linear harmonic oscillators
simple feedback control
sequences of conformational change
anharmomic oscillators
relaxation oscillations
predator-prey models
van der Pol systems
Chaotic systems
electrical circuits
molecular dynamics
systems of coupled harmonic oscillators
equilibrium thermodynamics
diffraction, Fourier transforms
systems of non-linear oscillators
non-equilibrium thermodynamics
protein structure/function
neural networks
the cell
ecosystems
Diffusion
Wave propagation
quantum mechanics
viscoelastic systems
Nonlinear wave propagation
Reaction-diffusion in dissipative systems
Turbulent/chaotic flows
adapted from S. Strogatz