different answers for implementing summation

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Terry McGinnis
Terry McGinnis on 22 Jun 2015
Edited: Terry McGinnis on 22 Jun 2015
im trying to implement summation in the following 2 ways:
1.
f1=[10 20 30 40 50]
x1=[1 2 3 4 5]
J=0
for i=1:5
J=J+((f1(i)-a*exp(-(x1(i)-mu)^2/sigma))^2)
end
and 2.
f1=[10 20 30 40 50]
x1=[1 2 3 4 5]
J=0
J=@(f,x) ((f-a*exp(-(x-mu)^2/sigma))^2)
for i=1:5
J(f1(i),x1(i))
end
and im getting different final answers for each.
can anyone tell why?

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Accepted Answer

Guillaume
Guillaume on 22 Jun 2015
Really, the best way of implementing your summation is option 3 which uses vectorised operations:
f1=[10 20 30 40 50]
x1=[1 2 3 4 5]
J = sum((f1 - a*exp(-(x1 - mu).^2 / sigma)) .^ 2)
Your option 2 looks like it wants to use J to store the result as in option 1 (since it has the line J = 0), but then put a function in J on the following line. In the loop you invoke the function but never assign the result to anything. I'm not sure what you expected to happen with that code. If you want to use an anonymous function, you could write your option 2 as:
func = @(f,x) (f-a*exp(-(x-mu)^2/sigma))^2;
J = 0;
for idx = 1 : numel(f1) %don't hardcode bounds, use numel to get the number of elements
J = J + func(f1(idx), x1(idx));
end
But again, vectorised code is better:
func = @(f,x) (f-a*exp(-(x-mu).^2/sigma)).^2; %note the use of .^ instead of ^
J = sum(func(f1, x1))

More Answers (1)

Andrei Bobrov
Andrei Bobrov on 22 Jun 2015
Edited: Andrei Bobrov on 22 Jun 2015
J = sum(f1-a*exp(-(x1-mu).^2/sigma)).^2)
for 2 variant:
f1=[10 20 30 40 50]
x1=[1 2 3 4 5]
J1=0
J=@(f,x) ((f-a*exp(-(x-mu)^2/sigma))^2)
for ii=1:5
J1 = J1 + J(f1(ii),x1(ii))
end

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