lsqcurvefit "Function value and YDATA sizes are not equal" for a complicated fitting function

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Hi all, I have some experimental data to be fitted to a function that is quite complicated (refer to the attached picture). And I kept getting the message that the function size and YDATA size are not equal. How do I solve this?
clear; clc
load Steady_State_Data.mat % this contains the wavelength of light and absorbance of substrate and sample
% Fundamental constants
h = 4.0135667696*10^-15; % units: eV/ Hz
c = 3*10^8; % SI units
% Clean up of data to select range of values
Absorbance = log10(T_substrate./T_sample);
E = (h*c./(Lambda*10^-9));
e = E >= 0 & E <= 2.0; % returns boolean value of the indices that satisfies the logical condition defined above
A = find(e); % gives indices that are non-zero
N = length(A); % no. of elements that are non-zero
n = length(E) + 1;
% Data for fitting
E_p = E(n-N:167);
Abs = Absorbance(n-N:167);
function F = EM_SS(p, e_p)
for i = 1:numel(e_p)
E_p = e_p(i);
F(i) = p(1)*(2*pi*sqrt(p(4))/E_p)*(1/p(6))*...
(integral(@(E)sech(((E_p - E)./p(6)))*(1 + 10*p(5)*(E - p(3)) + ...
126*p(5)^2*(E - p(3))^2)/(1 - exp(-2*pi*sqrt(p(4)/(E - p(3))))), p(3), Inf, 'ArrayValued', 1)) + ...
p(2)*(2*pi*p(4)^3/2)*1/p(6)*(...
(1/1^3)*sech((E_p - p(3) + p(4)/1^2)./p(6)) + ...
(1/2^3)*sech((E_p - p(3) + p(4)/2^2)./p(6)) + ...
(1/3^3)*sech((E_p - p(3) + p(4)/3^2)./p(6)) + ...
(1/4^3)*sech((E_p - p(3) + p(4)/4^2)./p(6)) + ...
(1/5^3)*sech((E_p - p(3) + p(4)/5^2)./p(6)) + ...
(1/6^3)*sech((E_p - p(3) + p(4)/6^2)./p(6)) + ...
(1/7^3)*sech((E_p - p(3) + p(4)/7^2)./p(6)));
end
end
% Initial parameter guess and bounds
lb = []; ub = [];
p0 = [0.13 0.1 1.6 0.05 3 1]; % refer to the next line for their order
% p0 = [A1 A2 Eg Eb R g]
% choose between different algorithm of lsqcurvefit (3C1, comment those lines that are not choosen, if not, matlab will take the last line of "optim_lsq" by default)
optim_lsq = optimoptions('lsqcurvefit', 'Algorithm', 'levenberg-marquardt');
% optim_lsq = optimoptions('lsqcurvefit', 'Algorithm', 'trust-region-reflective');
% optim_lsq = optimoptions('lsqcurvefit', 'Algorithm', 'interior-point');
% fminunc
% optim_fminunc = optimsoptions('fminunc', 'Algorithm', 'Quasi-Newton');
% solver
[p, resnorm, residual, exitflag, output, jacobian] = lsqcurvefit(@EM_SS, p0, E_p, Abs);
Error using lsqcurvefit (line 312)
Function value and YDATA sizes are not equal.
% p = lsqcurvefit(@EM_SS, p0, E_p, Abs);
% Plot command
plot(E_p, Abs, 'o')
hold on
% plot(E_p, p(1)*(2*pi*sqrt(p(4))/E_p)*(1/p(6))*...
% (integral(@(E)sech(((E_p - E)./p(6)))*(1 + 10*p(5)*(E - p(3)) + ...
% 126*p(5)^2*(E - p(3))^2)/(1 - exp(-2*pi*sqrt(p(4)/(E - p(3))))), p(3), Inf, 'ArrayValued', 1)) + ...
% p(2)*(2*pi*p(4)^3/2)*1/p(6)*(...
% (1/1^3)*sech((E_p - p(3) + p(4)/1^2)./p(6)) + ...
% (1/2^3)*sech((E_p - p(3) + p(4)/2^2)./p(6)) + ...
% (1/3^3)*sech((E_p - p(3) + p(4)/3^2)./p(6)) + ...
% (1/4^3)*sech((E_p - p(3) + p(4)/4^2)./p(6)) + ...
% (1/5^3)*sech((E_p - p(3) + p(4)/5^2)./p(6)) + ...
% (1/6^3)*sech((E_p - p(3) + p(4)/6^2)./p(6)) + ...
% (1/7^3)*sech((E_p - p(3) + p(4)/7^2)./p(6))))
plot(E_p, EM_SS(E_p, p))
xlabel('Probe energy (eV)')
ylabel('Absorbance.O.D')
legend('Experimental Data', 'Fitted Curve')
hold off
% Parameter values (refer to command window)
p1 = p(1,1);
p2 = p(1,2);
p3 = p(1,3);
p4 = p(1,4);
p5 = p(1,5);
p6 = p(1,6);
X1 = [' A1 = ', num2str(p1)];
X2 = [' A2 = ', num2str(p2)];
X3 = [' Eg = ', num2str(p3)];
X4 = [' Eb = ', num2str(p4)];
X5 = [' R = ', num2str(p5)];
X6 = [' g = ', num2str(p6)];
disp(X1);
disp(X2);
disp(X3);
disp(X4);
disp(X5);
disp(X6);
  6 comentarios
Torsten
Torsten el 10 de Jun. de 2024
Editada: Torsten el 10 de Jun. de 2024
Any idea how to resolve the issue of "Contour endpoints and waypoints must be finite."?
We already had this, too, in your previous question: the parameters and thus the lower limit of integration becomes complex-valued. Most probably, you somewhere take the square root of a negative number because "lsqcurvefit" suggests a negative parameter. In the call to "lsqcurvefit", use "lb" and "ub" to restrict the parameters to senseful values.

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