Using yyaxis with lsqcurvefit
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Hi everyone, I'm trying to use yyaxis with lsqcurve fit on this code:
function ODE4522Aug2018 %-------------------------------------------------------------------------- function C=IntegratedModel(k,t)
c0 = [0.01721262399 0.00000008759 0.679173343 0.00000487921 0.00000487921 49.17075376105 0.00000000000];
options = odeset('RelTol',1e-3,'AbsTol',1e-3); [T,Cv]=ode45(@ODEloop,t,c0,options);
%disp('Table: Concentration of species '), disp (' c(1) c(2) c(3) (c4) (c5) (c6) c(7) k(1) k(2)') %disp([c(1)', c(2)', c(3)',c(4)',c(5)',c(6)', c(7)',k(1), k(2)'])
%fprintf('screen printing using fprintf\n') %fprintf('c(1)\t c(2)\t c(3)\t c(4)\t c(5)\t c(6)\t c(7)\t\n') %fprintf('%2.2f\t %5.5f\t %5.5f\t %5.5f\t %5.5f\t %5.5f\t %5.5f\t\n',[c(1);c(2);c(3);c(4);c(5);c(6);c(7)])
function dC=ODEloop(t,c)
%%PARAMETERS
A = 1.5e-6; B = 1.66667e-5; CC = 6.51332e-2; D = 0; E = 8.314; F = 323.15; G = 149; H = 4.14e-6; I = 1.39e-9; J = 2.89e-9; K = 8.4e-4; %k(2)= 9.598e-4; M = 5.15e+3; N = 3.53e-9; O = 1.07e-7; P = 10; Q = 8.825e-3; R = 12.54; S = 100.0869; %k(1)= 0.84; TT = 2703; U = 1.7e-3; V = 6.55e-8; W = 6.24; X =5.68e-5; Y = 258.30; Z = 2540; AA = 0.00000933254;
dcdt=zeros(7,1);
dcdt(1) = (1/A) * (B * CC - B * c(1)) - ((c(1) * E * F - G * (((c(3) * AA.^2) / (AA.^2 + W * AA + W * X))))/((1/H) + (G/((1 + (I* c(5))/(J* c(3))) * K))));
dcdt(2) = (1/A) * (B * D - B * c(2)) - (k(2) * (1 + (I* c(5))/(N * c(4)))) * (c(2)* E * F/M - (((c(3) * AA.^2) / (AA.^2 + U * AA + U * V))));
dcdt(3) = ((c(1) * E * F - G * ((c(3) * AA.^2) / (AA.^2 + W * AA + W * X)))/((1/H) + (G/((1 + (I* c(5))/(J* c(3)))*K)) - (0.162 * exp(-5153 / F) * ((( c(5) * ( (c(3) * W * X) / (AA.^2 + W * AA + W * X) )) / O) - 1) * (P / (( c(5) * ( (c(3) * W * X) / (AA.^2 + W * AA + W * X))) / O)))));
dcdt(4) = (k(2) * (1 + (I* c(5)) / (N * c(4))) * (((c(2)* E * F) / M)) - ((c(3) * AA.^2) / (AA.^2 + U * AA + U * V))) - (- Q * R * S * c(6) * c(7) * (1 - (k(1) * c(7)) / (1 + k(1) * c(7))));
dcdt(5) = (- Q * R * S * c(6) * c(7) *(1 -(k(1) * c(7)) / (1 + k(1) * c(7)))) - (0.162 * exp(- 5153/F) * (((c(5) * ( (c(3) * W * X) / (AA.^2 + W * AA + W * X) )) / O) - 1) * (P / ((c(5) * ( (c(3) * W * X) / (AA.^2 + W * AA + W * X) )) / O)));
dcdt(6) = - c(6) * (- Q * R * S * c(6) * c(7) * (1 - (k(1) * c(7)) / ( 1 + k(1) * c(7)))) * S / TT;
dcdt(7) = (- Q * R * S * c(6) * c(7) * (1 - (k(1) * c(7))/(1 + k(1) * c(7))))* (Y/ Z);
dC=dcdt; end C=Cv; end
t=[1200 2400 10200 ];
c=[ 0.01721262399 0.00000008759 0.679173343 0.00000487921 0.00000487921 49.17075376105 0.00000000000 0.01700907268 0.00000010281 1.405349320 0.00000511161 0.00000511161 49.60948155721 0.00000000000 0.01741617529 0.00000036495 10.714612593 0.00000535393 0.00000535393 30.91118867616 9.33482826985 ];
k0 = [0.3 9.598e-4];
[k,Rsdnrm,Rsd,ExFlg,OptmInfo,Lmda,Jmat]=lsqcurvefit(@IntegratedModel,k0,t,c);
tv = linspace(min(t), max(t)); Cfit = IntegratedModel(k, tv);
figure(1) %plot(t, c, 'v') %hold on %hlp = plot(tv, Cfit); %hold off %xlabel('Time (sec)') %ylabel('Concentration (mol/m^3)') %legend(hlp, 'SO_{2,Headspace}', 'CO_{2,Headspace}','S_{total}','C_{total}','Ca^{2+}_{total}','CaCO_{3}', 'Ca^{2+}','Location','E')
yyaxis left plot(t, c(1),'rd',t, c(2),'cv',t, c(4),'y>',t, c(5),'m^') hold on hlp(1) = plot(tv, Cfit); hold off ylim([0,0.1]) ylabel('Conc (mol/m^{3}') xlabel ('Time (sec)') set(gca,'YColor','k');
yyaxis right plot(t, c(3),'ks',t, c(6),'bo',c(7),'gp') hold on hlp(2) = plot(tv, Cfit); hold off ylim([0,50]) legend(hlp(1),hlp(2), 'SO_{2,Headspace}', 'CO_{2,Headspace}','C_{total}','Ca^{2+}_{total}','S_{total}','CaCO_{3}', 'Ca^{2+}','location','Northeast') ylabel('Conc (mol/m^{3}') xlabel ('Time (sec)') set(gca,'YColor','k');
end
Yet I get the error message:
"Unable to perform assignment because the indices on the left side are not compatible with the size of the right side.
Error in ODE4522Aug2018 (line 112) hlp(1) = plot(tv, Cfit);"
What can I try/do?
11 comentarios
dpb
el 23 de Ag. de 2018
Remove subscripting on hlp, set breakpoint and see what is returned. It appears plot must be returning a vector of handles rather than just one...
Dursman Mchabe
el 23 de Ag. de 2018
Walter Roberson
el 23 de Ag. de 2018
Your t is a vector but c(3) is a scalar
Dursman Mchabe
el 23 de Ag. de 2018
Editada: Dursman Mchabe
el 23 de Ag. de 2018
dpb
el 23 de Ag. de 2018
What are you actually trying to plot? Why are you calling plot with the vector t for X but only a single value for the Y, c(3)?
If you expand c(3) to size/length of t, you'll just get a horizontal line of markers; is that the intent? If so, then the syntax would be
c(3)*ones(size(t))
to generate a vector the size of t with value c(3). Of course, you've got the same issue with the other values in the plot statement so you've got to fix 'em all (or change what it is you're trying to do, we can't know that).
nT=size(t);
plot(t, c(3)*ones(nT),'ks',t, c(6)*ones(nT),'bo',c(7)*ones(nT),'gp')
Dursman Mchabe
el 23 de Ag. de 2018
dpb
el 23 de Ag. de 2018
Well, it "works" for whatever it is worth if there are data...
clear c
c(3)=pi; c(6)=8;
figure
plot(t,c(3)*ones(nT),'ks',t,c(6)*ones(nT),'bo')
xlim([0 11]),ylim([0 10])
gives
which illustrates the code snippet itself works. Have you verified that all c() are not NaN? plot will just ignore NaN silently.
Walter Roberson
el 23 de Ag. de 2018
Perhaps you want to use refline() or vertline()
Dursman Mchabe
el 23 de Ag. de 2018
dpb
el 23 de Ag. de 2018
So, what was the end result of what was the problem? (inquiring minds and all that... :) )
Dursman Mchabe
el 26 de Ag. de 2018
Respuestas (0)
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Más información sobre Gaussian Process Regression en Centro de ayuda y File Exchange.
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