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How to find the following Maximum or supremum by computer software such as Mathematica and Matlab: $\sup\frac{(1+s)^{4}+(s+t)^{4}+t^{4}}{1+s^{4}+t^{4}}$?

Instead of numerical approximation, what is the accurate maximum?


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You get an accurate (or analytic) solution by taking one derivative with respect to s and another derivative with respect to t, and then solving for where both of those derivatives are zero at the same time. – Timo Nov 21 '10 at 18:11
However, those derivative produce polynomials of order 7 in s and t, and generally no analytic solution is available. I suspect you should figure out some clever parameter substitution first. Assuming this is Homework, maybe you should think about what has been discussed in class. – Timo Nov 21 '10 at 18:20
@Timo in fact, the maximum for the function is one of the roots for a polynomial of order 27. I thought the problem was easier at first glance – Dr. belisarius Nov 21 '10 at 20:10
I think, although it is clearly homework, we may provide some more guidance here if @user515055 shows some work done around @Timo suggestions above – Dr. belisarius Nov 21 '10 at 20:15
If you plot the function there is and obvious substitution (s -> x - y, t -> x + y) which makes the maximum lie (unfortunately only almost) on the x-axis. – Timo Nov 21 '10 at 20:45

Since the question seems a bit like homework, here's an answer that starts a bit like a lecture:

  • ask yourself what happens to the function as s and t go to small and to large positive and negative values; this will help you to identify the range of values you should be examining; both Mathematica and Matlab can help your figure this out;
  • draw the graph of your function over the range of values of interest, develop a feel for its shape and try to figure out where it has maxima; for this the Mathematic Plot3D[] function and the Matlab plot() function will both be useful;
  • since this is a function of 2 variables, you should think about plotting some of its sections, ie hold s (or t) constant, and make a 2D plot of the section function; again, develop some understanding of how the function behaves;
  • now you should be able to do some kind of search of the s,t values around the maxima of the function and get an acceptably accurate result.

If this is too difficult then you could use the Mathematica function NMaximize[]. I don't think that Matlab has the same functionality for symbolic functions built-in and you'll have to do the computations numerically but the function findmax will help.

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Thanks for your detailed answer. Instead of numerically approximated maximum, what is or how to find the accurate maximum? – user515055 Nov 21 '10 at 13:46
You would use Maximize[] in Mathematica for a symbolic solution, but NMaximize[] will produce an accurate maximum. – High Performance Mark Nov 21 '10 at 14:11
My computer is not powerful enough to get the value by using Maximize[] in Mathematica, no matter how long I wait for it computing the exact value, as I tried. – user515055 Nov 21 '10 at 16:07
@High I think he is trying to find an algebraic solution ... – Dr. belisarius Nov 21 '10 at 21:41
@belisarius: OP changed the question and is confusing accurate with symbolic. I do my best but it's sometime just not good enough. Sighhhh. – High Performance Mark Nov 22 '10 at 7:34

In Matlab, one would create a vector/matrix with s and t values, and a corresponding vector with the function values. Then you can pinpoint the maximum using the function max

In Mathematica, use FindMaximum like this:

f[s_,t_]:= ((1+s)^4 + (s+t)^4 + t^4)/(1+s^4+t^4)
FindMaximum[ f[s,t],{s,0},{t,0} ]

This searches for a maximum starting from (s,t)=(0,0).

For more info, see

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max/FindMaximum give numerical approximation in this case – J-16 SDiZ Nov 22 '10 at 4:07
@J-16 If you look at the timeline, you will see that this answer was posted BEFORE the OP asked Instead of numerical approximation, what is the accurate maximum?. So, If you've downvoted this answer, please reconsider it. – Dr. belisarius Nov 22 '10 at 4:24
@belisarius, ok – J-16 SDiZ Nov 22 '10 at 4:27
Upvoted to neuter unnecessary downvote. – Dr. belisarius Nov 22 '10 at 15:33

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