ode15s

Syntax

[t,y] = ode15s(@func,tin,y0)

[t,y] = ode15s(@func,tin,y0,options)

[t,y] = ode15s(...)

Inputs

func

The system of equations to solve.

tin

The vector of times (or other domain variable) at which to report the solution. If the vector has two elements, then the solver operates in single-step mode and determines the appropriate intermediate steps.

y0

The vector of initial conditions.

options

A struct containing options settings specified via odeset.

The default relative and absolute tolerances are 1.0e-3 and 1.0e-6.

For the option to supply the analytical Jacobian, the function signature should be as follows:

function dy = jacobian(t,y)

where dy contains the derivative of the system function vector with respect to y.

Outputs

t

The times at which the solution is computed.

y

The solution matrix, with the solution at each time stored by row.

Example

Solve the Van Der Pol oscillator. This example is not stiff, but becomes stiff for large values of mu.

function dy = VDP(t,y,mu)
  % y = [x, dx/dt]
  dy = [0, 0];
  dy(1) = y(2);
  dy(2) = mu * (1.0 - y(1)^2) * y(2) - y(1);
end

mu = 1.0; % mass
handle = @(t,y) VDP(t,y,mu);
t = [0:0.2:10]; % time vector
yi = [2, 0];
[t,y] = ode15s(handle,t,yi);
x = y(:,1)'

x = [Matrix] 1 x 51
2.00000  1.96684  1.88770  1.78102  1.65390  1.50781  1.34081  1.14828  0.92255
 0.65226  0.32198  -0.08498  -0.57355  -1.10232  -1.56568  -1.86407  -1.99079
 -2.00144  -1.94697  -1.85570  -1.74078  -1.60680  -1.45352  -1.27806  -1.07511
 -0.83578  -0.54694  -0.19174  0.24571  0.75830  1.28080  1.69564  1.92881  2.00712
 1.99028  1.92071  1.82036  1.69860  1.55799  1.39755  1.21364  0.99951  0.74490
 0.43561  0.05486  -0.40929  -0.93453  -1.43392  -1.79186  -1.96728  -2.00821

Comments

ode15s solves the system using the backward differentiation formula algorithm from the Sundials CVODE library.

To pass additional parameters to a function argument, use an anonymous function.