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I am working on a little puzzle-game-project. The basic idea is built around projecting multi-dimensonal data down to 2D. My only problem is how to generate the randomized scenario data. Here is the problem:

I got muliple randomized vectors v_i and a target vector t, all 2D. Now I want to randomize scalar values c_i that:

t = sum c_i v_i

Because there are more than two v_i this is a overdetermined system. I also took care that the linear combination of v_i is actual able to reach t.

How can I create (randomized) values for my c_i?

Edit: After finding this Question I can additionally state, that it is possible for me also (slightly) change the v_i.

All values are based on double

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The c_i are integers or reals? –  Henry Jun 29 '14 at 8:11
    
All values are based on double –  Knowleech Jun 29 '14 at 8:13

2 Answers 2

up vote 1 down vote accepted

Let's say your v_i form a matrix V with 2 rows and n columns, each vector is a column. The coefficients c_i form a column vector c. Then the equation can be written in matrix form as

V×c = t

Now apply a Singular Value Decomposition to matrix V:

V = A×D×B

with A being an orthogonal 2×2 matrix, D is a 2×n matrix and B an orthogonal n×n matrix. The original equation now becomes

A×D×B×c = t

multiply this equation with the inverse of A, the inverse is the same as the transposed matrix AT:

D×B×c = AT×t

Let's introduce new symbols c'=B×c and t'=AT×t:

D×c' = t'

The solution of this equation is simple, because Matrix D looks like this:

u 0 0 0 ...  // n columns
0 v 0 0 ... 

The solution is

c1' = t1' / u
c2' = t2' / v

And because all the other columns of D are zero, the remaining components c3'...cn' can be chosen freely. This is the place where you can create random numbers for c3'...cn. Having vector c' you can calculate c as

c = BT×c'

with BT being the inverse/transposed of B.

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Sounds perfect! Thanks –  Knowleech Jun 30 '14 at 14:59

Since the v_i are linearly dependent there are non trivial solutions to 0 = sum l_i v_i. If you have n vectors you can find n-2 independent such solutions.

If you have now one solution to t = sum c_i v_i you can add any multiple of l_i to c_i and you will still have a solution: c_i' = p l_i + c_i.

For each independent solution of the homogenous problem determine a random p_j and calculate c_i'' = c_i + sum p_j l_i_j.

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"If you have now one solution to t = sum c_i v_i" is exactly my problem. How do I get one? Your tip for the randomizing with the l_i, however, is great. Thanks! –  Knowleech Jun 29 '14 at 10:10
    
To get one solution just pick two linearly independent vectors v_i and solve the 2x2 system of linear equations. –  Henry Jun 29 '14 at 16:04
    
I see. This makes sense. :-) –  Knowleech Jun 30 '14 at 14:58

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