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I am creating a computer simulation to reverse-engineer a ranking vector. For example, assume I had 3 variables I was measuring, and wanted to apply a weighting vector to them with values from 1-5. I would then apply the weights to the variable vector, creating a rating vector. Then convert that to a ranking vector, and see which permutation was the closest to the standard. How could I eliminate the duplicates like the weighting vectors:

(1,1,1) produces the same ranking vector as (5,5,5)

(2,1,1) produces the same ranking vector as (4,2,2)

etc.

My actual simulation has many more variables/weights and eliminating duplicates would really help save processing power.

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migrated from stats.stackexchange.com Jun 24 '12 at 14:04

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Is this a fair understanding: you wish to generate a complete set of n-tuples (x1,x2,...,xn) with the xi integral in 1..5, but you will consider any such tuple of the form (ax1,ax2,...,a*xn) to be equivalent to (x1,x2,...,xn)? E.g., (5,5,5) = 5*(1,1,1) and (4,2,2) = 2*(2,1,1). If so, I wouldn't bother weeding them out: you would be eliminating only 2^n+3 out of the 5^n possible n-tuples, which even for small n is an inconsequential fraction of the total. –  whuber Jun 23 '12 at 15:10
1  
Ok thanks. I'll just have to keep the number of parameters low to bring the permutations down. –  James Jun 23 '12 at 21:04

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