Not able to find fzero

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Dhawal Beohar am 25 Mai 2022

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https://de.mathworks.com/matlabcentral/answers/1727020-not-able-to-find-fzero

Kommentiert: Dhawal Beohar am 7 Aug. 2022

--> difference.m
function y = difference(u,d1,n,a,m,T,PsByN_0,UmaxN_0)
d1=20;
n=10^-11.4;
m=2.7;
a=0.5;
T=1;
PsByN_0dB=5;                                                     
PsByN_0=10.^(PsByN_0dB/10);
UmaxdB = 5;
UmaxN_0=10.^(UmaxdB/10);
fun1 = (-1./u)*log(((d1^m)./(a*n*PsByN_0*T*u+d1^m)*a)./(1-a));
fun2 = (1./u)*log(((-exp(u*UmaxN_0)*(exp(-PsByN_0*u)))./(u*UmaxN_0+PsByN_0*u))*(PsByN_0*u)-(PsByN_0*u*(exp(-PsByN_0*u)))*(expint(u*UmaxN_0+PsByN_0*u))+(exp(-PsByN_0*u))+((PsByN_0*u)*(exp(-PsByN_0*u)))*(expint(PsByN_0*u))+(exp(u*UmaxN_0))./((UmaxN_0/PsByN_0)+1));
y = (fun1 - fun2);
g0=fzero(@(u) difference(u,d1,n,a,m,T,PsByN_0,UmaxN_0), 10);
end
        

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Torsten am 25 Mai 2022

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https://de.mathworks.com/matlabcentral/answers/1727020-not-able-to-find-fzero#answer_971600

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d1=20;
n=10^-11.4;
m=2.7;
a=0.5;
T=1;
PsByN_0dB=5;                                                     
PsByN_0=10.^(PsByN_0dB/10);
UmaxdB = 5;
UmaxN_0=10.^(UmaxdB/10);
fun1 = @(u) (-1./u)*log(((d1^m)./(a*n*PsByN_0*T*u+d1^m)*a)./(1-a));
fun2 = @(u) (1./u)*log(((-exp(u*UmaxN_0)*(exp(-PsByN_0*u)))./(u*UmaxN_0+PsByN_0*u))*(PsByN_0*u)-(PsByN_0*u*(exp(-PsByN_0*u)))*(expint(u*UmaxN_0+PsByN_0*u))+(exp(-PsByN_0*u))+((PsByN_0*u)*(exp(-PsByN_0*u)))*(expint(PsByN_0*u))+(exp(u*UmaxN_0))./((UmaxN_0/PsByN_0)+1));
fun =@(u) (fun1(u) - fun2(u));
g0=fzero(fun, 10);

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Torsten am 6 Aug. 2022

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I suggest you try an interval around the zero you found, e.g.

u = fzero(fun,[0.01,0.02])
U = linspace(0.01,0.02,20);
fU = fun(U);
plot(U,fU)

Dhawal Beohar am 6 Aug. 2022

ok, thanks!

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Sam Chak am 25 Mai 2022

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https://de.mathworks.com/matlabcentral/answers/1727020-not-able-to-find-fzero#answer_971595

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Hi @Dhawal Beohar

Guess the problem that you want to solve is a complex-valued function.

function y = difference(u)

% parameters

d1 = 20;

n = 10^-11.4;

m = 2.7;

a = 0.5;

T = 1;

PsByN_0dB = 5;

PsByN_0 = 10.^(PsByN_0dB/10);

UmaxdB = 5;

UmaxN_0 = 10.^(UmaxdB/10);

% functions

fun1 = (-1./u)*log(((d1^m)./(a*n*PsByN_0*T*u + d1^m)*a)./(1 - a));

fun2 = (1./u)*log(((- exp(u*UmaxN_0)*(exp(-PsByN_0*u)))./(u*UmaxN_0 + PsByN_0*u))*(PsByN_0*u) - (PsByN_0*u*(exp(-PsByN_0*u)))*(expint(u*UmaxN_0 + PsByN_0*u)) + (exp(-PsByN_0*u)) + ((PsByN_0*u)*(exp(-PsByN_0*u)))*(expint(PsByN_0*u)) + (exp(u*UmaxN_0))./((UmaxN_0/PsByN_0) + 1));

y = (fun1 - fun2);

end

Let's try with fzero first.

[u, fval, exitflag, output] = fzero(@(u) difference(u), 10)

The exitflag = -4 indicates that complex function value was encountered while searching for an interval containing a sign change.

Next, fsolve is used.

[u, fval, exitflag, output] = fsolve(@(u) difference(u), 10)

The exitflag = -2 means that the Equation is not solved. The exit message shows that fsolve stopped because the problem appears regular as measured by the gradient, but the vector of function values is not near zero as measured by the default value of the function tolerance.