Implementation of High Order DAE for Matlab Solver

3 views (last 30 days)
Helge
Helge on 6 Mar 2015
Edited: Helge on 24 Mar 2015
Hi,
I got three variables y1(t), y2(t) and y3(t) which I want to solve for. Moreover I have two ODEs in explicit and coupled form and one algebraic equation , which look as follows:
1. Eqn: y1''' = f(y1'', y1', y1, y2'', y2', y2, u)
2. Eqn: y3'' = f(y1', y1, y2'', y2', y2, y3', y3, u)
3. Eqn: y1 = y2 + y3
u is my input which is a cosine function with amplitude U_g
I want to use ode15s() to solve this system if its correct, with a Mass Matrix M and a form like
M(t,y)*y= f(t,y)
Therefore I have to reduce the order of the above equations first.
Now my function looks like the following, where "d" represents first differential and "dd" the 2nd differential:
function out = myodefunc(t, y, U_g, R_e, L_e, M_m, bl_0, bl_1, ...)
out = zeros(8, 1);
% Reduce Order of Diffenrential Equations
y1 = y(1);
dy1 = y(2);
ddy1 = y(3);
y2 = y(4);
dy2 = y(5);
ddy2 = y(6);
y3 = y(7);
dy3 = y(8);
% Define Output
out(1) = y1 - y2 - y3;
out(2) = dy1;
out(3) = ddy1;
out(4) = -(bl_0^3*dy1 - bl_0^2*U_g*cos(2*pi*f0.*t) + bl_1^3*y1^3*dy1 + bl_2^3*y1^6*dy1 - bl_1^2*U_g*cos(2*pi*f0.*t)*y1^2 - ...
out(5) = dy2;
out(6) = ddy2;
out(7) = dy3;
out(8) = (L_e*bl_0*s_s_0*dy2 - L_e*bl_0*s_v_0*dy3 + R_e*bl_0*r_s_0*dy2 - R_e*bl_0*r_v_0*dy3 + R_e*bl_0*s_s_0*y2 - R_e*bl_0*s_v_0*y3 + -...
end
With a Mass Matrix :
M =
0 0 0 0 0 0 0 0
0 1 0 0 0 0 0 0
0 0 1 0 0 0 0 0
0 0 0 1 0 0 0 0
0 0 0 0 1 0 0 0
0 0 0 0 0 1 0 0
0 0 0 0 0 0 1 0
0 0 0 0 0 0 0 1
Do you guys think, that I implemented this in the right way?
Mainly I am concerned about the algebraic equation, which is in the first line of the output. It's because I get zero output for out(2), out(3), out(5) and out(6).

Sign in to answer this question.

Accepted Answer

Torsten
Torsten on 9 Mar 2015
I guess your DAE system is of higher index than 1.
You can check this:
http://de.mathworks.com/help/symbolic/check-and-reduce-differential-index.html
Best wishes
Torsten.
  1 Comment
Helge
Helge on 17 Mar 2015
Hi Torsten, just a quick reply on your answer. I succesfully implemented my DAE system by walking through the following manual: http://de.mathworks.com/help/symbolic/set-up-your-dae-problem.html
This is avaible for Symbolic Math Toolbox users in Matlab2015a. It is very straight forward method for implementing equation systems in Matlab and super helpful, Well Done!

Sign in to comment.

More Answers (0)

Categories

Find more on Ordinary Differential Equations in Help Center and File Exchange

Tags

Products

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!