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Ode where 'x' is a column vector

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Keelan Toal
Keelan Toal il 3 Gen 2016
Commentato: Jan il 4 Gen 2016
I’m trying to solve the following ODE:
[m]x’’+[c]x’+[k]x = F
where [m] is a diagonal matrix, [c] and [k] are 7x7 matrices and both F and x are 7x1 matrices which vary with time.
I initially tried to solve it using an anonymous function but I get a ‘Matrix dimensions must agree error’ at least in part because it makes 'z' a 14x1 instead of a 2x7.
m=840; mf=53; mr=76;
Ix=820; Iy=1100;
a1=1.4; a2=1.47;
b1=0.7; b2=0.75;
w=b1+b2;
kf=10000; kr=13000;
ktf=200000; ktr=ktf;
kR=25000;
cf=10000; cr=12000;
v=20; d1=20; d2=0.1; wex=(2*pi*v)/d1;
M=zeros(7,7);
M(1,1)=m; M(2,2)=Ix; M(3,3)=Iy; M(4,4)=mf;
M(5,5)=mf; M(6,6)=mr; M(7,7)=mr;
K=zeros(7,7);
K(1,1)=2*kf+2*kr;
K(2,1)=b1*kf-b2*kf-b1*kr+b2*kr; K(1,2)=K(2,1);
K(3,1)=2*a2*kr-2*a1*kf; K(1,3)=K(3,1);
K(2,2)=kR+(b1^2)*kf+(b2^2)*kf+(b1^2)*kr+(b2^2)*kr;
K(3,2)=a1*b2*kf-a1*b1*kf-a2*b1*kr+a2*b2*kr; K(2,3)=K(3,2);
K(4,2)=-b1*kf-(1/w)*kR; K(2,4)=K(4,2);
K(5,2)=b2*kf+(1/w)*kR; K(2,5)=K(5,2);
K(3,3)=2*kf*(a1^2)+2*kr*(a2^2);
K(4,4)=kf+ktf+(1/(w^2))*kR; K(5,5)=K(4,4);
K(1,4)=-kf; K(1,5)=K(1,4); K(1,6)=-kr; K(1,7)=K(1,6);
K(2,6)=b1*kr; K(2,7)=-b2*kr;
K(3,4)=a1*kf; K(3,5)=K(3,4); K(3,6)=-a2*kr; K(3,7)=K(3,6);
K(4,1)=K(1,4); K(4,3)=K(3,4); K(4,5)=-kR/(w^2);
K(5,1)=K(1,5); K(5,3)=K(3,5); K(5,4)=K(4,5);
K(6,1)=K(1,6); K(6,2)=K(2,6); K(6,3)=K(3,6); K(6,6)=kr+ktr;
K(7,1)=K(1,7); K(7,2)=K(2,7); K(7,3)=K(3,7); K(7,7)=kr+ktr;
C=zeros(7,7);
C(1,1)=2*cf+2*cr;
C(2,1)=b1*cf-b2*cf-b1*cr+b2*cr; C(1,2)=C(2,1);
C(3,1)=2*a2*cr-2*a1*cf; C(1,3)=C(3,1);
C(2,2)=(b1^2)*cf+(b2^2)*cf+(b1^2)*cr+(b2^2)*cr;
C(3,2)=a1*b2*cf-a1*b1*cf-a2*b1*cr+a2*b2*cr; C(2,3)=C(3,2);
C(3,3)=2*cf*(a1^2)+2*cr*(a2^2);
C(1,4)=-cf; C(1,5)=C(1,4); C(1,6)=-cr; C(1,7)=C(1,6);
C(2,4)=-b1*cf; C(2,5)=b2*cf; C(2,6)=b1*cr; C(2,7)=-b2*cr;
C(3,4)=a1*cf; C(3,5)=C(3,4); C(3,6)=-a2*cr; C(3,7)=C(3,6);
C(4,1)=C(1,4); C(4,2)=C(2,4); C(4,3)=C(3,4); C(4,4)=cf;
C(5,1)=C(1,5); C(5,2)=C(2,5); C(5,3)=C(3,5); C(5,5)=cf;
C(6,1)=C(1,6); C(6,2)=C(2,6); C(6,3)=C(3,6); C(6,6)=cr;
C(7,1)=C(1,7); C(7,2)=C(2,7); C(7,3)=C(3,7); C(7,7)=cr;
iM=inv(M);
odefun=@(t,z) [z(2,:); iM*([0;0;0;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf]-C*z(2,:)-K*z(1,:))];
tspan=0:0.01:10; ic=zeros(2,7);
[t,z]=ode45(odefun,tspan,ic);
I then tried calling it from a separate script and faced the same problem:
[t,z]=ode45(@Txt_func,[0,10],zeros(2,7));
Note that once I get past this stage, I’m aiming to optimise (probably genetic) the ‘k_’ and ‘c_’ values so, as I understand it, an anonymous solution would be more straightforward.
Also I'd like to vary the components in 'F' from
[0;0;0;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf;(d2/2)*sin(wex*t)*ktf]
to the following
v=20; d1=20; d2=0.1; wex=(2*pi*v)/d1;
tau=(a1+a2)/v;
if t<=2
y1=(d2/2)*sin(wex*t);
else
y1=0;
end
if (t>=0.2 && t<=2.2)
y2=(d2/2)*sin(wex*(t-0.2));
else
y2=0;
end
if (t>=tau && t<=2+tau)
y3=(d2/2)*sin(wex*(t-tau));
else
y3=0;
end
if (t>=0.2+tau && t<=2.2+tau)
y4=(d2/2)*sin(wex*(t-tau-0.2));
else
y4=0;
end
F=zeros(7,1);
F(4,:)=y1*ktf;
F(5,:)=y2*ktf;
F(6,:)=y3*ktr;
F(7,:)=y4*ktr;
But 't' is only defined within ODE.
Thanks in advance.

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Jan
Jan il 3 Gen 2016
Modificato: Jan il 3 Gen 2016
The problem gets much simpler, if you write the function to be integrated as an M-file. Then determine the parameters using an anonymous function as described here: http://www.mathworks.com/matlabcentral/answers/1971
For the problem of the discontinuities in y see: http://www.mathworks.com/matlabcentral/answers/59582#answer_72047. Matlab's ODE integrators are not specified to handle discontinous functions, such the the result is numerically instable. The reliable solution is to break the integration into time intervals with differentiable parameters.
Do not multiply the inverse of a matrix, but use the \ operator.
  2 Commenti
Keelan Toal
Keelan Toal il 3 Gen 2016
Thanks for the response.
Sorry, if I've misunderstood, but is this relevant to my initial problem, i.e. setting my initial conditions with 'z0=zeros(2,7)' (first and second differential of the x vector) but then when stopped in the debugger, it states 'z' is a 14x1.
Jan
Jan il 4 Gen 2016
Initial values must be a vector.

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