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Error using fmincon Supplied objective function must return a scalar value

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SWASTIK SAHOO
SWASTIK SAHOO am 6 Dez. 2022
Kommentiert: SWASTIK SAHOO am 6 Dez. 2022
C1=log(1+(h(1,1).*P(1,1)/n+x1));
C2=log(1+(h(2,2).*P(2,1)/n+x2));
C3=log(1+(h(3,3).*P(3,1)/n+x3));
C4=log(1+(h(4,4).*P(4,1)/n+x4));
C=[C1,C2,C3,C4];
M=4;
w=linspace(0,1,M);
C_sum= C.*w;
Pimax(1:4)= 10^-4;
x0 = ones(64,1);
c_lin = [H',zeros(1,48);zeros(1,16),H',zeros(1,32);zeros(1,32),H',zeros(1,16);zeros(1,48),H'];
b = Pimax;
X = fmincon(@myfunc,x0,c_lin,b);
function C_sum1=myfunc(C_sum)
C_sum1=C_sum;
end
  2 Kommentare
SWASTIK SAHOO
SWASTIK SAHOO am 6 Dez. 2022
clc;
clear all;
close all;
x1=0;
x2=0;
x3=0;
x4=0;
n=10^-9; %noise
N= 16; % number of channels
h_rayleigh=(1/sqrt(2)).*(randn(N,1)+1i*randn(N,1));
h_abs= abs(h_rayleigh);
H= h_abs;
h=reshape(h_abs,4,4);
syms A [4 16] matrix
P= A*H;
i=1;
for j=1:1:4
if(j~=i)
x1= x1+h(j,i).*P(j,1);
else
x1=x1;
end
end
i=2;
for j=1:1:4
if(j~=i)
x2= x2+h(j,i).*P(j,1);
else
x2=x2;
end
end
i=3;
for j=1:1:4
if(j~=i)
x3= x3+h(j,i).*P(j,1);
else
x3=x3;
end
end
i=4;
for j=1:1:4
if(j~=i)
x4= x4+h(j,i).*P(j,1);
else
x4=x4;
end
end
X=[x1,x2,x3,x4];
size(X);
C1=log(1+(h(1,1).*P(1,1)/n+x1));
C2=log(1+(h(2,2).*P(2,1)/n+x2));
C3=log(1+(h(3,3).*P(3,1)/n+x3));
C4=log(1+(h(4,4).*P(4,1)/n+x4));
C=[C1 C2 C3 C4];
M=4;
w=linspace(0,1,M);
C_sum= C.*w;
Pimax(1:4)= 10^-4;
x0 = ones(64,1);
c_lin = [H',zeros(1,48); zeros(1,16), H',zeros(1,32);zeros(1,32),H',zeros(1,16);zeros(1,48),H'];
b = Pimax;
X = fmincon(@myfunc,x0,c_lin,b);
function C_sum1=myfunc(C_sum)
C_sum1=C_sum;
end
SWASTIK SAHOO
SWASTIK SAHOO am 6 Dez. 2022
The above is the full code.. please help
thanks in advance

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Akzeptierte Antwort

Sam Chak
Sam Chak am 6 Dez. 2022
Ran in:
HI @SWASTIK SAHOO
The error message says that your objective function "myfunc()" must return a scalar value. Perhaps the trapz() function might work. I'm unfamiliar with the physics of Rayleigh scattering. So, you need to check if the proposed objective function is acceptable.
x1 = 0;
x2 = 0;
x3 = 0;
x4 = 0;
n = 1e-9; % noise
N = 16; % number of channels
h_rayleigh = (1/sqrt(2)).*(randn(N,1) + 1i*randn(N,1));
h_abs = abs(h_rayleigh);
H = h_abs;
h = reshape(h_abs, 4, 4);
syms A [4 16] matrix
P = A*H;
i = 1;
for j = 1:1:4
if(j ~= i)
x1 = x1 + h(j,i).*P(j,1);
else
x1 = x1;
end
end
i = 2;
for j = 1:1:4
if(j ~= i)
x2 = x2 + h(j,i).*P(j,1);
else
x2 = x2;
end
end
i = 3;
for j = 1:1:4
if(j ~= i)
x3 = x3 + h(j,i).*P(j,1);
else
x3 = x3;
end
end
i = 4;
for j = 1:1:4
if(j ~= i)
x4 = x4 + h(j,i).*P(j,1);
else
x4 = x4;
end
end
X = [x1, x2, x3, x4];
size(X);
C1 = log(1 + (h(1,1).*P(1,1)/n + x1));
C2 = log(1 + (h(2,2).*P(2,1)/n + x2));
C3 = log(1 + (h(3,3).*P(3,1)/n + x3));
C4 = log(1 + (h(4,4).*P(4,1)/n + x4));
C = [C1 C2 C3 C4];
M = 4;
w = linspace(0, 1, M);
C_sum = C.*w;
Pimax(1:4) = 10^-4;
x0 = ones(64,1);
c_lin = [H', zeros(1,48); zeros(1,16), H', zeros(1,32); zeros(1,32), H', zeros(1,16); zeros(1,48), H'];
b = Pimax;
options = optimoptions(@fmincon, 'MaxFunctionEvaluations', 3e6);
X = fmincon(@myfunc, x0, c_lin, b, [], [], [], [], [], options);
Problem appears unbounded. fmincon stopped because the objective function value is less than the value of the objective function limit and constraints are satisfied to within the value of the constraint tolerance.
function C_sum1 = myfunc(C_sum)
C_sum1 = trapz(C_sum);
end

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