''Conversion to function_handle from double is not possible.''

4 vues (au cours des 30 derniers jours)
Dario Miric
Dario Miric le 25 Jan 2022
Commenté : Torsten le 26 Jan 2022
I get this error when I run my code. I was looking up what this error means, but I can't figure it out in context of my code.. This is main code.
clc
clear all
global x1e x2e x3e x1r x2r x3r alfa12 alfa13 alfa23
%LLE podatci - ekstrakcija aromata smjesom TTEG i vode - 6 komponenata (heptan) na 60°C
%eksperimentalni podatci - ekstrakt
x1e = [0.0140 0.0175 0.0163 0.0188 0.0181 0.0227 0.0228 0.0214 0.0191 0.0208];
x2e = [0.0729 0.0696 0.106 0.1041 0.1107 0.0931 0.0732 0.0739 0.113 0.069];
x3e = 1 - x1e - x2e;
%eksperimentalni podatci - rafinat
x1r = [0.689 0.6289 0.485 0.4727 0.4332 0.6831 0.6967 0.6553 0.4507 0.6139];
x2r = [0.275 0.2855 0.4418 0.3501 0.4056 0.313 0.2716 0.271 0.4436 0.253];
x3r = 1 - x1r - x2r;
%Optimizacija NRTL parametara - Metoda Sorensena i Arlta
%1. stupanj optimizacije - opis fazne ravnoteze - geneticki algoritam
%parametri neslucajnosti
alfa12 = 0.3;
alfa13 = 0.3;
alfa23 = 0.2;
rng default
%poziv funkcije cilja
OF_A = @OF_2_6H_60C;
%definiranje strukture problema
problem.fitnessfcn = OF_A;
problem.nvars = 6;
problem.options = optimoptions('ga');
[x,fval] = ga(problem)
This is function I called in main code.
function [OF2] = OF_2_6H_60C(tau12,tau13,tau21,tau23,tau31,tau32)
global x1e x2e x3e x1r x2r x3r alfa12 alfa13 alfa23
syms tau12 tau13 tau21 tau23 tau31 tau32
G12 = exp(-alfa12*tau12);
G13 = exp(-alfa13*tau13);
G21 = exp(-alfa12*tau21);
G23 = exp(-alfa23*tau23);
G31 = exp(-alfa13*tau31);
G32 = exp(-alfa23*tau32);
A1e = (x2e.*tau21*G21 + x3e.*tau31*G31)./(x1e + x2e.*G21 + x3e.*G31) + (((x1e./(x1e + x2e.*G21 + x3e.*G31)).*(-(x2e.*tau21*G21 + x3e.*tau31*G31)./(x1e + x2e.*G21 + x3e.*G31))) + ((x2e.*G12)./(x1e.*G12 + x2e + x3e.*G32)).*(tau21 - (x1e.*tau12*G12 + x3e.*tau32*G32)./(x1e.*G12 + x2e + x3e.*G32))) + ((x3e.*G13./(x1e.*G13 + x2e.*G23 + x3e)).*(tau31 - (x1e.*tau13*G13 + x2e.*tau23*G23)./(x1e.*G13 + x2e.*G23 + x3e)));
gamma1e = exp(A1e);
A2e = (x1e.*tau12*G12 + x3e.*tau32*G32)./(x1e.*G12 + x2e + x3e.*G32) + ((x1e.*G21./(x1e + x2e.*G21 + x3e.*G31)).*(tau12 - (x2e.*tau21*G21 + x3e.*tau31*G31)./(x1e + x2e.*G21 + x3e.*G31))) + ((x2e./(x1e.*G12 + x2e + x3e.*G32)).*(-(x1e.*tau12*G12 + x3e.*tau32*G32)./(x1e.*G12 + x2e + x3e.*G32))) + ((x3e.*G23./(x1e.*G13 + x2e.*G23 + x3e)).*(tau32 - (x1e.*tau13*G13 + x2e.*tau23*G23)./(x1e.*G13 + x2e.*G23 + x3e)));
gamma2e = exp(A2e);
A3e = (x1e.*tau13*G13 + x2e.*tau23*G23)./(x1e.*G13 + x2e.*G23 + x3e) + ((x1e.*G21./(x1e + x2e.*G21 + x3e.*G31)).*(tau13 - (x2e.*tau21*G21 + x3e.*tau31*G31)./(x1e + x2e.*G21 + x3e.*G31))) + ((x2e.*G32./(x1e.*G12 + x2e + x3e.*G32)).*(tau23 - (x1e.*tau12*G12)./(x1e.*G12 + x2e + x3e.*G32))) + ((x3e./(x1e.*G13 + x2e.*G23 + x3e)).*(-(x1e.*tau13*G13 + x2e.*tau23*G23)./(x1e.*G13 + x2e.*G23 + x3e)));
gamma3e = exp(A3e);
A1r = (x2r.*tau21*G21 + x3r.*tau31*G31)./(x1r + x2r.*G21 + x3r.*G31) + ((x1r./(x1r + x2r.*G21 + x3r.*G31)).*(-(x2r.*tau21*G21 + x3e.*tau31*G31)./(x1r + x2r.*G21 + x3r.*G31))) + ((x2r.*G12)./(x1r.*G12 + x2r + x3e.*G32)).*(tau21 - ((x1r.*tau12*G12 + x3r.*tau32*G32)./(x1r.*G12 + x2r + x3r.*G32))) + ((x3r.*G13./(x1r.*G13 + x3r)).*(tau31 - (x1r.*tau13*G13 + x2r.*tau23*G23)./(x1r.*G13 + x2r.*G23 + x3r)));
gamma1r = exp(A1r);
A2r = (x1r.*tau12*G12 + x3r.*tau32*G32)./(x1r.*G12 + x2r + x3r.*G32) + ((x1r.*G21./(x1r + x2r.*G21 + x3r.*G32)).*(tau12 - (x2r.*tau21.*G21 + x3r.*tau31*G31)./(x1r + x2r.*G21 + x3r.*G31))) + ((x2r./(x1r.*G12 + x2r + x3r.*G32)).*(-(x1r.*tau12*G12 + x3r.*tau32*G32)./(x1r.*G12 + x2r + x3r.*G32))) + ((x3r.*G23./(x1r.*G13 + x2r.*G23 + x3r)).*(tau32 - (x1r.*tau13*G13 + x2r.*tau23*G23 + x3r)));
gamma2r = exp(A2r);
A3r = (x1r.*tau13*G13 + x2r.*tau23*G23)./(x1r.*G13 + x2r.*G23 + x3r) + ((x1r.*G31./(x1r + x2r.*G21 + x3r.*G31)).*(tau13 - (x2r.*tau21*G21 + x3r.*tau31*G31)./(x1r + x2r.*G21 + x3r.*G31))) + ((x2r.*G32./(x1r.*G12 + x2r + x3r.*G32)).*(tau23 - (x1r.*tau12*G12)./(x1r.*G12 + x2r + x3r.*G32))) + ((x3r./(x1r.*G13 + x2r.*G23 + x3r)).*(-(x1r.*tau13*G13 + x2r.*tau23*G23)./(x1r.*G13 + x2r.*G23 + x3r)));
gamma3r = exp(A3r);
for i = 1:10
A(i)=((x1e(i)*gamma1e(i) - x1r(i)*gamma1r(i))/(x1e(i)*gamma1e(i) + x1r(i)*gamma1r(i))^2) + ((x2e(i)*gamma2e(i) - x2r(i)*gamma2r(i))/(x2e(i)*gamma2e(i) + x2r(i)*gamma2r(i))^2) + ((x3e(i)*gamma3e(i) - x3r(i)*gamma3r(i))/(x3e(i)*gamma3e(i) + x3r(i).*gamma3r(i))^2);
end
F2 = sum(A,'all');
OF2 = matlabFunction(F2)
end
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Dario Miric
Dario Miric le 25 Jan 2022
Modifié(e) : Dario Miric le 25 Jan 2022
Hmm, thanks. I thought I needed to define parameters as symbolic variables because matlab wouldn't know what these are without defining them first in some way. What you said has sense in context of have ga algorithm works in matlab. Can I leave tau's as parameters because it is a lot of work to change every parameter to x?
Torsten
Torsten le 26 Jan 2022
In function OF_2_6H_60C, you can work with the name tau for the variables.

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