# Minimizing objective function by changing a varialbe - in Matlab?

I have a `101x82` size matrix called `A`. Using this variable matrix, I compute two other variables called:

1) `B`, a `1x1` scalar, and

2) `C`, a `50x6` matrix.

I compare `1)` and `2)` with their analogues variables `3)` and `4)`, whose values are fixed:

3) `D`, a `1x1` scalar, and

4) `E`, a `50x6` matrix.

Now, I want to perturb/change the values of `A` matrix, such that:

`1)` ~ `3)`, i.e. `B` is nearly equal to `D` , and

`2)` ~ `4)`, i.e. `C` is nearly equal to `E`

Note that on perturbing `A`, `B` and `C` will change, but not `D` and `E`.

Any ideas how to do this? Thanks!

-
could you please trim out the excess code and use simple dummy variables like `A`, `B` etc and post a minimal example that reproduces the problem that you have? It's hard going through such a wall of code with long variable names that mean nothing to me. –  abcd Apr 23 '11 at 0:00
Actually right now the code only contains the way of computing `1)` and `2)`. I'm not sure if that will be helpful towards the objective of the problem. I'll change the variable names in the question to `A`, `B` etc.. –  Pupil Apr 23 '11 at 0:06

I can't run your code as it's demanding to load data (which I don't have) and it's not immediatly obvious how to calculate B or C.

Fortunately I may be able to answer your problem. You're describing an optimization problem, and the solution would be to use fminsearch (or something of that variety).

What you do is define a function that returns a vector with two elements:

``````y1 = (B - D)^weight1;
y2 = norm((C - E), weight2);
``````

with weight being how strong you allow for variability (weight = 2 is usually sufficient).
Your function variable would be A.

-
Thanks Rasman! How do I define `fun` to be used in `fminsearch`? I am saying this because my `fun` is being computed indirectly using `x0`. I have changed the variable names in the code to look like `A,B,C,D and E` as defined in the question. Thanks! –  Pupil Apr 28 '11 at 23:48
define a function that returns the vector I described above.. let's call it foo(A,D,E). Next: `bar = @(A)foo(A,D,E)`. Finally `foobar=fminsearch(bar, A0)` (A0 is semi-random guess at the optimal outcome) –  Rasman Apr 29 '11 at 4:26

From my understanding you have a few functions.

fb(A) = B

fc(A) = C

Do you know the functions listed above, that is do you know the mappings from A to each of these? If you want to try to optimize, so that B is close to D, you need to pick:

1. What close means. You can look at some vector norm for the B and D case, like minimizing ||B-D||^2. The standard sum of the squares of the elements of this different will probably do the trick and is computationally nice.
2. How to optimize. This depends a lot on your functions, whether you want local or global mimina, etc.

So basically, now we've boiled the problem down to minimizing:

Cost = ||fb(A) - fd(A)||^2

One thing you can certainly do is to compute the gradient of this cost function with respect to the individual elements of A, and then perform minimization steps with forward Euler method with a suitable "time step". This might not be fast, but with small enough time step and well-behaved enough functions it will at least get you to a local minima.