fsolve yields wrong answer

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Pooneh Shah Malekpoor
Pooneh Shah Malekpoor il 9 Nov 2021
Commentato: Pooneh Shah Malekpoor il 10 Nov 2021
Hello
It is an example of many equations in my lengthy code. I want to use fsolve to solve it as it is more efficient; however, it yields wrong answer:
F = @(x)((x-20.6667)^2+57.89);
opts = optimoptions('fsolve', 'Display', 'off');
x(1) = fsolve(@(x) F(x), 0, opts);
in this case it yields x(1)=20.6667 ; howver, it should not yield any solution in real domain!!!!I want to get real domain roots by fsolve.
What should i do? I dont want to use solve as it results in longer run times.
Bests
Pooneh

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Star Strider
Star Strider il 9 Nov 2021
Ran in:
Give fsolve a complex initial estimate to get a complex root —
F = @(x)((x-20.6667).^2+57.89);
opts = optimoptions('fsolve', 'Display', 'off');
x0 = 1 + 1i;
x(1) = fsolve(@(x) F(x), x0, opts)
x = 20.6667 + 7.6085i
.
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Star Strider
Star Strider il 10 Nov 2021
Ran in:
The fsolve function will find a complex root if given a complex initial estimate, or if a purely imaginary root is the only root.
One option to eliminate complex numbers could be to take their absolute values —
x = 20.6667 + 7.6085i;
xa = abs(x)
xa = 22.0228
and the other option of course is just to use the real part.
However changing the code to accommodate complex numbers may be the best option, because it will likely provide the most accurate results.
.
Matt J
Matt J il 10 Nov 2021
Give fsolve a complex initial estimate to get a complex root —
But note that this will only lead to a proper complex-domain solution under certain conditions:
https://www.mathworks.com/help/optim/ug/complex-numbers-in-optimization-toolbox-solvers.html

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Più risposte (2)

Matt J
Matt J il 10 Nov 2021
I want to use fsolve to solve it as it is more efficient; however, it yields wrong answer:
In your example, the function is a polynomial. Is this always the case for you? If so, it is more efficient to use roots(). Moreover, roots() will find all solutions, both real and complex, whereas fsolve can find only one solution.
  1 Commento
Pooneh Shah Malekpoor
Pooneh Shah Malekpoor il 10 Nov 2021
Thank you so much Matt J! your comment made a huge positive impact on my code and its run time has decreased significantly. This is highly appreciated!

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Matt J
Matt J il 10 Nov 2021
Modificato: Matt J il 10 Nov 2021
Ran in:
parts=@(z) [real(z);imag(z)];
complx=@(x) complex(x(1),x(2));
F = @(x)parts((complx(x)-20.6667)^2+57.89);
opts = optimoptions('fsolve', 'Display', 'off');
x = complx( fsolve(F, [0,0], opts))
x = 20.6667 + 7.6085i

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