How do I use a squarewave as an input?
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I am trying to solve an ODE. Using a different tspan the ODE is solved, but I need to use a squarewave as an input. So far this is my code:
Rs= 17.5;
Csa= 0.01;
%Csv= 1.75;
%t= 5.5998 ;% Q
Psa = 99.9958; % Psa
Psv= 1.9999; % Psv
a=1:0.1:100;
y= square (a,50);
dPsadt= @(t,Psa)((t-((Psa - Psv)/ Rs)) /Csa);
ode45(dPsadt, [y], [0]);
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Star Strider
le 22 Avr 2020
Try this:
Rs= 17.5;
Csa= 0.01;
%Csv= 1.75;
%t= 5.5998 ;% Q
Psa = 99.9958; % Psa
Psv= 1.9999; % Psv
a=1:0.1:100;
y= square (a,50);
idx = find(y>0); % Find Relevant Indices Into ‘y’
idxp = idx(find(diff(idx)>1)); % Find Relevant Indices Into ‘y’
idx = find(y<0); % Find Relevant Indices Into ‘y’
idxn = idx(find(diff(idx)>1)); % Find Relevant Indices Into ‘y’
ic = 0;
dPsadt= @(t,Psa)((t-((Psa - Psv)/ Rs)) /Csa) .* interp1(a,y,t);
for k = 1:numel(idxp)
tspan = a(idxp(k):idxn(k));
[tk,yk] = ode45(dPsadt, tspan, ic);
ic = yk(end);
tc{k,:} = tk;
yc{k,:} = yk;
end
tv = cell2mat(tc);
yv = cell2mat(yc);
figure
plot(a, y)
hold on
plot(tv, yv, '-r')
hold off
grid
The approach is to use the last value of the dependent variable as the initial condition for the next iteration, since numeric ODE solvers do not handle significant, abrupt transitions well (they are not differentiable). The interp1 call added to the ‘dPsadt’ function uses the square-wave ‘y’ as input to the function at every time ‘t’. Unforutnately, the integrated function descends to very high negative numbers. (Substituting 0 for ‘ic’ demonstrates that the code appears to work correctly.)
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le 22 Avr 2020
le 22 Avr 2020
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