multiplication of infinity by zero in Matlab Calculation
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Jamal Ahmad
el 12 de Feb. de 2014
Respondida: Logan Capizzi
el 30 de Nov. de 2021
Hi,
I have a problem with the evaluation of an equation. My problem is that; one of the parts in the equation will result to infinity, and another part will result to zero. Then the product of them should give me zero BUT it gave me NAN. How I can solve this problem?
Thank you
3 comentarios
Roger Stafford
el 18 de Mzo. de 2017
@Jamal Ahmad. It should be noted that matlab does not decide this answer of a NaN. It is hard-wired into all computers which use the IEEE 754 floating point standard, which almost surely means your computer.
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the cyclist
el 12 de Feb. de 2014
Editada: the cyclist
el 12 de Feb. de 2014
The product of 0 and infinity, mathematically, is not zero. It is indeterminate. That is why it gives you a NaN.
10 comentarios
Iain
el 24 de Feb. de 2014
You'll need to work in log-space.
ln(exp(634)) = 634
ln(exp(-632.2)) = -632.2
634 + (-632.2) = 1.8
exp(1.8) = exp(634)*exp(-632.2)
I doubt that there is an automatic way to work in logarithms rather than normal numbers.
Más respuestas (6)
Patrik Ek
el 12 de Feb. de 2014
The solution to this problem comes from the mathematical limit. 1/0 = inf is really a bit sloppy. If you remember how this was introduced in the mathematical analysis course you most likely took for many years ago you would see that the correct way to work with infinities is to work with limits for example,
lim x->0 a/x = inf, a<inf equ(1)
This is however in most cases seen as a general theorem, which allows you to write 1/0 = inf. Another way to express a<inf is to say that a is bounded. Otherwise it is unbounded, it can take any value larger than the largest real value. The same applies for,
lim x->inf b/x = 0; b<inf, equ(2)
since x->inf can be anything is could be larger than 0.00... so this still applies. But what happens if we have an expression?
lim x->0 ax*1/bx = a/b*x/x = a/b, equ(3)
You see that x cancels out and the answer is a/b. So the limit of two undefined values a*inf and 1/(b*inf) actually depends on the speed with which they go towards their limit.
The problem is that when matlab becomes inf or zero, matlab can not say how fast they apporach the limit. The obvious solution to that problem is to say that the limit can not be set, or the limit does not exist. Matlab then returns a nan for the cases
inf/inf
0/0
0*inf
where equ(3) applies.
0 comentarios
Walter Roberson
el 24 de Feb. de 2014
To make Matlab not consider exp(1000) to be infinity, overload the exp function for double datatype, and tell the function to return 42 instead of infinity when it detects that the absolute value of the argument exceeds realmax()
Good luck keeping from $%#@$'ing up other MATLAB code that expects infinity. Overloading a fundamental mathematical operation to make it lie is sure to be ... an interesting experience.
0 comentarios
David Young
el 23 de Feb. de 2014
So x contains infinities and y contains zeros and we are willing to assume from knowledge of the earlier computation that when an infinity in x is multiplied by a zero in y, the correct answer is zero. Then it is reasonble to write:
z = x .* y;
z(isinf(x) & y == 0) = 0;
This replaces the NaNs that have been generated in this way by zeros.
2 comentarios
Walter Roberson
el 23 de Feb. de 2014
Or more efficient,
z(y == 0) = 0;
If the inf might appear on either side,
z(~(x | y)) = 0;
Logan Capizzi
el 30 de Nov. de 2021
If you want the NaN to be zero, you can do the following.
A(isnan(A)) = 0;
0 comentarios
Sri Vastava
el 25 de Feb. de 2017
Editada: Walter Roberson
el 26 de Feb. de 2017
the cyclist wrote: The product of 0 and infinity, mathematically, is not zero. It is indeterminate. That is why it gives you a NaN.
The answer is infinity.
2 comentarios
Walter Roberson
el 26 de Feb. de 2017
Sri Vastava: are you indicating that the product of 0 and infinity is infinity? We explore above why the answer is indeterminate, not infinity.
David Goodmanson
el 26 de Feb. de 2017
Editada: David Goodmanson
el 26 de Feb. de 2017
Hello Sri, It really is indeterminate.
as x -> 0,
x -> 0 (of course)
x^2 -> 0
1/x is unbounded, -> inf
1/x^2 is unbounded, -> inf
now take three different expressions that are basically 0*inf:
as x-> 0
x^2 * (1/x) = x -> 0
x * (1/x^2) = 1/x is unbounded, -> inf
x * (6/x) = 6 -> 6
You can get any value that you want, so Matlab goes with the IEEE 754 standard and says NaN.
Andrea Barletta
el 16 de Mzo. de 2017
I don't fully agree with previous comments on the meaning of the product between 0 and infinity. It is true that the result of 0*Inf is indeterminate when the latter is interpreted as the product between two limits - it simply doesn't make any sense if it is interpreted as a standalone expression. But the limit of 0*f(x) will always give 0, no matter where x and f(x) are going. In such case, in Matlab, we should get a genuine 0*Inf=0. Neglecting this exception may cause some issues in programming. Suppose that I have a function f defined as a function g truncated over a compact set A. Mathematically, the value f(x) should be zero for every x outside A, no matter how g is defined. But as Jamal Ahmad more or less remarked in one comment if we take
f=@(x) exp(x).*(abs(x)<=10);
and we evaluate x=1e3 we incorrectly get f(1e3)=NaN. Of course, IF using anonymous functions is not a necessity, one may overcome the problem by defining f as
function y=f(x)
if abs(x)<10
y=exp(x);
else
y=0;
end
end
But apparently truncation and anonymous functions don't like each other in Matlab...
9 comentarios
Andrea Barletta
el 21 de Jul. de 2017
I don't see why it should be difficult to check, every time that an anonymous function is evaluated, if the defining expression is of the form (indicator function of A)*(composition, product or sum between functions belonging to a preset list of smooth and well behaved built-in functions). In this case every time that the function is evaluated outside A Matlab can safely return 0. You could say that it wouldn't be worth investing any effort on that, given that one can always use an if-else statement, but that's completely another story. Anyway, a "truncation operator" to be used within anonymous functions would be very much useful.
Walter Roberson
el 22 de Jul. de 2017
What might make sense could be to define false * inf as 0 . Not 0 in general, but logical(0) specifically.
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