Error using + Matrix dimensions must agree.

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Dikra dikra
Dikra dikra am 10 Dez. 2018
Kommentiert: madhan ravi am 15 Dez. 2018
how can i solve this error?
Below is my script:
function [y, cons] = TP_CONSTR_objfun(x)
y = [0,0];
cons = [0,0];
theta1=[0:0.1:pi];theta2=[0:0.1:pi];
for theta1=1:length(x(1))
for theta2=1:length(x(2))
y(1) = (-sqrt(x(1).^2+x(2).^2+x(3).^2)).*2.*(x(3)+x(1).*cos(x(4)));
%%%%%
e=(x(1).*(sin(theta1)-sin(theta2))./(2.*x(3)+x(1).*cos(theta2)-x(1).*cos(theta1)));
f=x(1).*x(3).*(cos(theta2)+cos(theta1))./(2.*x(3)+x(1).*cos(theta2)-x(1).*cos(theta1));
px=e.*y+f;
d=1+e.^2;
g=2.*(e.*f-e.*x(1).*cos(theta1)+e.*x(3)-x(1).*sin(theta1));
h=f.^2-2.*f.*(x(1).*cos(theta1)-x(3))-2.*x(1).*x(3).*cos(theta1)+x(3).^2+x(1).^2-x(2).^2;
py=-g+sqrt(g.^2-4.*d.*h)./2.*d;
%%%%%%%%%%
y(2)=(((py - x(1).*sin(theta2)).^2.*(sin(theta1).*(x(3) + px) - py.*cos(theta1)).^2)./(2.*(x(1).*py.*cos(theta1) - 2.*x(3).*py - x(1).*py.*cos(theta2) + x(1).*x(3).*sin(theta1) + x(1).*x(3).*sin(theta2) - x(1).*px.*sin(theta1) + x(1).*px.*sin(theta2) - x(1).^2.*cos(theta1).*sin(theta2) + x(1).^2.*cos(theta2).*sin(theta1)).^2) + ((py - x(1).*sin(theta1)).^2.*(py.*cos(theta2) + sin(theta2).*(x(3) - px)).^2)./(2.*(x(1).*py.*cos(theta1) - 2.*x(3).*py - x(1).*py.*cos(theta2) + x(1).*x(3).*sin(theta1) + x(1).*x(3).*sin(theta2) - x(1).*px.*sin(theta1) + x(1).*px.*sin(theta2) - x(1).^2.*cos(theta1).*sin(theta2) + x(1).^2.*cos(theta2).*sin(theta1)).^2) + ((sin(theta1).*(x(3) + px) - py.*cos(theta1)).^2.*(x(3) - px + x(1).*cos(theta2)).^2)./(2.*(x(1).*py.*cos(theta1) - 2.*x(3).*py - x(1).*py.*cos(theta2) + x(1).*x(3).*sin(theta1) + x(1).*x(3).*sin(theta2) - x(1).*px.*sin(theta1) + x(1).*px.*sin(theta2) - x(1).^2.*cos(theta1).*sin(theta2) + x(1).^2.*cos(theta2).*sin(theta1)).^2) + ((py.*cos(theta2) + sin(theta2).*(x(3) - px)).^2.*(x(3) + px - x(1).*cos(theta1)).^2)./(2.*(x(1).*py.*cos(theta1) - 2.*x(3).*py - x(1).*py.*cos(theta2) + x(1).*x(3).*sin(theta1) + x(1).*x(3).*sin(theta2) - x(1).*px.*sin(theta1) + x(1).*x.*sin(theta2) - x(1).^2.*cos(theta1).*sin(theta2) + x(1).^2.*cos(theta2).*sin(theta1)).^2)).^(1./2).*((py - x(1).*sin(theta1)).^2./(2.*(x(3).*sin(theta1) - py.*cos(theta1) + px.*sin(theta1)).^2) + (py - x(1).*sin(theta2)).^2./(2.*(py.*cos(theta2) + x(3).*sin(theta2) - px.*sin(theta2)).^2) + (x(3) + px - x(1).*cos(theta1)).^2./(2.*(x(3).*sin(theta1) - py.*cos(theta1) + px.*sin(theta1)).^2) + (x(3) - px + x(1).*cos(theta2)).^2./(2.*(py.*cos(theta2) + x(3).*sin(theta2) - px.*sin(theta2)).^2)).^(1./2);
end
end
% constraint function
c = (-sqrt(x(1).^2+x(2).^2+x(3).^2))-0.5;
if(c<0)
cons(1) = abs(c);
end
c = (2.*(x(3)+x(1).*cos(x(4))))-1.5;
if(c<0)
cons(2) = abs(c);
end
Thank you
  5 Kommentare
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Dikra dikra
Dikra dikra am 15 Dez. 2018
Bearbeitet: per isakson am 15 Dez. 2018
x(1) x(2) and x(3) are the design variables of an optimization problem
y(1) and y(2) are two objectif functions
t1 and t2 are two angles varies between 0 and pi
my script can be written as:
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [y, cons] = TP_CONSTR_objfun(x)
y = [0,0];
cons = [0,0];
t1=[0:0.1:pi];t2=[0:0.1:pi];
for t1=1:length(y(1))
for t2=1:length(y(2))
%%%%%%%%%
e=(x(1).*(sin(t1)-sin(t2))./(2.*x(3)+x(1).*cos(t2)-x(1).*cos(t1)));
f=(x(1).*x(3).*(cos(t2)+cos(t1))./(2.*x(3)+x(1).*cos(t2)-x(1).*cos(t1)));
d=(1+e.^2);
g=(2.*(e.*f-e.*x(1).*cos(t1)+e.*x(3)-x(1).*sin(t1)));
h=(f.^2-2.*f.*(x(1).*cos(t1)-x(3))-2.*x(1).*x(3).*cos(t1)+x(3).^2+x(1).^2-x(2).^2);
yp=(-g+sqrt(g.^2-4.*d.*h)./2.*d);
xp=(e.*y+f);
%objectif function
y(1) = (sqrt(x(1).^2+x(2).^2+x(3).^2)).*2.*(x(3)-x(1).*sin(t1));
y(2) =(((x(1).^2.*(yp - x(1).*sin(t2)).^2.*(sin(t1).*(x(3) + xp) - yp.*cos(t1)).^2)./(2.*(x(1).*yp.*cos(t1) - 2.*x(3).*yp - x(1).*yp.*cos(t2) + x(1).*x(3).*sin(t1) + x(1).*x(3).*sin(t2) - x(1).*xp.*sin(t1) + x(1).*xp.*sin(t2) - x(1).^2.*cos(t1).*sin(t2) + x(1).^2.*cos(t2).*sin(t1)).^2) + (x(1).^2.*(yp.*cos(t2) + sin(t2).*(x(3) - xp)).^2.*(x(3) + xp - x(1).*cos(t1)).^2)./(2.*(x(1).*yp.*cos(t1) - 2.*x(3).*yp - x(1).*yp.*cos(t2) + x(1).*x(3).*sin(t1) + x(1).*x(3).*sin(t2) - x(1).*xp.*sin(t1) + x(1).*xp.*sin(t2) - x(1).^2.*cos(t1).*sin(t2) + x(1).^2.*cos(t2).*sin(t1)).^2)).^(1./2).*((x(1).*yp.*cos(t1) - 2.*x(3).*yp - x(1).*yp.*cos(t2) + x(1).*x(3).*sin(t1) + x(1).*x(3).*sin(t2) - x(1).*xp.*sin(t1) + x(1).*xp.*sin(t2) - x(1).^2.*cos(t1).*sin(t2) + x(1).^2.*cos(t2).*sin(t1)).^2./(2.*x(1).^2.*(yp.*cos(t2) + x(3).*sin(t2) - xp.*sin(t2)).^2.*(x(3) + xp - x(1).*cos(t1)).^2) + (x(1).*yp.*cos(t1) - 2.*x(3).*yp - x(1).*yp.*cos(t2) + x(1).*x(3).*sin(t1) + x(1).*x(3).*sin(t2) - x(1).*xp.*sin(t1) + x(1).*xp.*sin(t2) - x(1).^2.*cos(t1).*sin(t2) + x(1).^2.*cos(t2).*sin(t1)).^2./(2.*x(1).^2.*(yp - x(1).*sin(t2)).^2.*(x(3).*sin(t1) - yp.*cos(t1) + xp.*sin(t1)).^2)).^(1./2));
end
end
%Constraints
c = (sqrt(x(1).^2+x(2).^2+x(3).^2))-100;
if(c<0)
cons(1) = abs(c);
end
c = 2.*(x(3)-x(1).*sin(t1))-200;
if(c<0)
cons(2) = abs(c);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
The error message is:
Evaluating the objective function... Generation: 1 / 100 , Individual: 1 / 100
In an assignment A(I) = B, the number of elements in B and I must be the same.
Error in TP_CONSTR_objfun (line 24)
madhan ravi
madhan ravi am 15 Dez. 2018
why don't you just use size() ?? to verify the sizes??

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Antworten (1)

per isakson
per isakson am 15 Dez. 2018
Bearbeitet: per isakson am 15 Dez. 2018
Observation:
for t1=1:length(y(1))
for t2=1:length(y(2))
Why loops? The length of one element is always ONE.
I made a simple test (R2018b) and got an error in line 17 (not 24), which is the very wide expression.
>> TP_CONSTR_objfun([1,2,3])
Unable to perform assignment because the left and right sides have a different number of elements.
Error in TP_CONSTR_objfun (line 17)
y(2) =(((x(1).^2.*(yp - x(1).*sin(t2)).^2.*(sin(t1).*(x(3) + xp) - <snip>
This expression returns a vector, which cannot be assigned to one element of y, thus the error.
Set a break-point and start debugging
>> TP_CONSTR_objfun([1,2,3])
14 xp=(e.*y+f);
K>> yp
yp =
1.6829 + 2.2361i
...
...
K>> (((x(1).^2.*(yp - x(1).*sin(t2)).^2.*(sin(t1).*(x(3) + xp) - yp.*cos(t1)).^2) <snip>
K>> zzz=ans
zzz =
1.0891 - 0.1597i 1.0891 - 0.1597i
See: Debug a MATLAB Program and Examine Values While Debugging
  1 Kommentar
Dikra dikra
Dikra dikra am 15 Dez. 2018
Bearbeitet: Dikra dikra am 15 Dez. 2018
Thank you
I think the error is in the insertion of t1 and t2
even when i remove the loops i get this error:
Error using *
Inner matrix dimensions must agree.
Error in TP_CONSTR_objfun (line 24)
xp=(e*y+f);
Error in TP_CONSTR_objfun (line 24)
xp=(e*y+f);
Error in evaluate>evalIndividual (line 67)
[y, cons] = objfun( indi.var, varargin{:} );
Error in evaluate (line 45)
[pop(i), allTime(i)] = evalIndividual(pop(i), opt.objfun, varargin{:});
Error in nsga2 (line 81)
[pop, state] = evaluate(opt, pop, state, varargin{:});
Error in TP_CONSTR (line 25)
result = nsga2(options); % begin the optimization!

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