curve fit a custom polynomial
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Randy Chen
el 26 de Oct. de 2021
Comentada: Star Strider
el 27 de Oct. de 2021
I have the following 2nd order polynomial in the r-z coordinates:
Right now I have four sets of coordinats (r,z), how should I do a curve fit such that I can get an expression for Z in terms of r?
z = [-6.41 -12.4 2.143 102];
r = [13.58 15.7636 12.96 46.6];
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Respuesta aceptada
Star Strider
el 27 de Oct. de 2021
One approach —
syms A B C D r z
sf = A*r^2 + B*z + C*r + D == 0
sfiso = isolate(sf, z)
zfcn = matlabFunction(rhs(sfiso), 'Vars',{[A B C D],r})
z = [-6.41 -12.4 2.143 102];
r = [13.58 15.7636 12.96 46.6];
B0 = rand(1,4);
nlm = fitnlm(r, z, zfcn, B0)
Bv = nlm.Coefficients.Estimate;
pv = nlm.Coefficients.pValue;
Out = table({'A';'B';'C';'D'},Bv,pv, 'VariableNames',{'Parameter','Value','p-Value'})
rv = linspace(min(r), max(r));
zv = predict(nlm, rv(:));
figure
plot(r, z, 'pg')
hold on
plot(rv, zv, '-r')
hold off
grid
xlabel('r')
ylabel('z')
legend('Data','Model Fit', 'Location','best')
The Warning was thrown because the number of parameters are not less than the number of data pairs.
Experiment to get different results.
.
2 comentarios
Star Strider
el 27 de Oct. de 2021
As always, my pleasure!
syms A B C D r z
sf = A*r^2 + B*z + C*r + D == 0
sfiso = solve(sf, z)
zfcn = matlabFunction(sfiso, 'Vars',{[A B C D],r})
z = [-6.41 -12.4 2.143 102];
r = [13.58 15.7636 12.96 46.6];
B0 = rand(1,4);
nlm = fitnlm(r, z, zfcn, B0)
Bv = nlm.Coefficients.Estimate;
pv = nlm.Coefficients.pValue;
Out = table({'A';'B';'C';'D'},Bv,pv, 'VariableNames',{'Parameter','Value','p-Value'})
rv = linspace(min(r), max(r));
zv = predict(nlm, rv(:));
figure
plot(r, z, 'pg')
hold on
plot(rv, zv, '-r')
hold off
grid
xlabel('r')
ylabel('z')
legend('Data','Model Fit', 'Location','best')
I like isolate because of the output format, and some of its other characteristics.
.
Más respuestas (1)
Rik
el 27 de Oct. de 2021
You have two options: rewrite your equation to be a pure quadratic and use polyfit, or use a function like fit or fminsearch on this shape.
If you have trouble implementing either of these two, feel free to comment with what you tried.
2 comentarios
Rik
el 27 de Oct. de 2021
Polyfit will fit a pure polynomial of the form
f(x)=p(1)*x^n +p(2)*x^(n-1) ... +p(n)*x +p(n+1)
That means you can determine the values of -A/B, -C/B, and -D/B with polyfit.
As you may conclude from this: there is no unique solution for your setup, unless you have other restrictions to the values you haven't told yet.
z = [-6.41 -12.4 2.143 102];
r = [13.58 15.7636 12.96 46.6];
p=polyfit(r,z,2)
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