I have in R a data.table of size 100K rows and 6 columns (let's say x_1, ... x_6).

I am looking for a subset of size 1K rows such that optimizes (maybe not the optimal one, but at least better than random or sorting) how to choose these thousand rows and optimizes a*sum(x_1) + ... + f*sum(x_6), where a,...,f are numbers.

Any suggestion of using an algorithm/library to solve this problem?

Thank you!

Reproducible Example:

# Creation of sinthetic data
set.seed(123)
total <- data.frame(id = 1:1000000, x1 =  runif(1000000,0,1),  x2 =  60*runif(100000,0,1), 
                    x3 = runif(100000,0,1), x4 = runif(1000000,0,1), Last_interaction = sample(1:35, 1000000, replace= T))

total$x3 <- -total$x2 * total$x3 * runif(100000,0.7,1)
head(total)

# We are looking for a subset of 1000 rows such that
Cost_function <- function(x1,x2,x3,x4)
{
  0.2*max(x1) + 0.4*sum(x2) - 0.3*sum(x2) - 0.1*max(x4)
}
# is maximized.

# We rank the dataset by weights in cost function
total <- total[with(total, order(-x2, x3,-x1,-x4)), ]
head(total)

# Want to improve (best choice by just ranking and getting top1000) 
result_1 <- total[1:1000,]
# And of course random selection
result_2 <- total[sample(1:nrow(total), 1000,
                          replace=FALSE),]


# Wanna improve sorting and random selection if possible
Cost_function(result_1$x1,result_1$x2,result_1$x3,result_1$x4)
# [1] 5996.787
# (high value, but improvable)
Cost_function(result_2$x1,result_2$x2,result_2$x3,result_2$x4)
# [1] 3000
# low performace
  • Do you mean "maximizes sum(i selected row) a x_1[i]+..+fx_6[i]"? – Karsten W. Jan 4 at 15:17
  • Nope sorry, let me edit it – Francis Mescudi Jan 4 at 15:22
  • 1
    In some sense the rows are completely decomposable -- each row adds a times its first element plus b times its second element plus ... plus f times its sixth element to the sum you are trying to optimize. So why not just sort rows by that quantity and take the top 1,000? – josliber Jan 4 at 15:25
  • I am creating a reproducible example because I think I didn't explain my trouble properly. – Francis Mescudi Jan 4 at 15:29
  • How can you rank the elements of the vector if the objective function sums over all their values? – AdamO Jan 4 at 15:52

This is a strange cost function: 0.2*max(x1) + 0.4*sum(x2) - 0.3*sum(x2) - 0.1*max(x4).. I don't think the proposed method to calculate Ax (followed by sorting) corresponds to this. The combination of max and sum in the cost function makes it not separable in the rows so we cannot just use sorting. The only thing I can come up with is a MIP formulation (a binary variable indicating if a row is selected).

The model is not completely trivial:

enter image description here

See here for details.

For a small data set it does the following:

enter image description here

Note that the LP model given in the other answer (now deleted) is not correct (even for all positive values). Modeling the max correctly for the non-convex case is not trivial.

  • I made a linear function as an example, I didn't work on defining properly the cost function. And I found the error if a decompose ` 0.2*max(x1) + 0.4*sum(x2) - 0.3*sum(x2) - 0.1*max(x4)` value of a is a= c(0.2,0.1,0,0.1) instead of a=c(0.2,0.4,-0.3,0.1) because I failed copy-pasting. Thank you for your help guys, very much appreciated. – Francis Mescudi Jan 5 at 8:14

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