# Linear form of function (a/b) for ampl/cplex

I am trying to solve a minimisation problem and I want to minimise an expression

``````a/b
``````

Where both a & b are variables. Hence this is not a linear problem... How can I transform this function into an other one (being a linear one)

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There is a detailed section on how to handle ratios in Linear Programming on the lpsolve site. It should be general enough to apply to AMPL and CPLEX as well.

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Thank you very much, great resource :) – FireFox Jul 20 '12 at 1:18

There are several ways to do this, but the simplest to explain requires that you solve a series of linear programs. First, remove the objective and add a constraint

``````a <= c * b
``````

Where c is a known upper bound on the solution. Then do a binary search on c you can a range where c_l, c_u where the problem is infeasible for

``````a <= c_l * b
``````

but feasible for

``````a <= c_u * b
``````
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Could one formulate that in a cplex solver like AMPL ? – FireFox Jul 19 '12 at 17:27
Also interesting if possible is to see those other ways... :) So if you have a link, please share :) – FireFox Jul 19 '12 at 17:30

The general form of the obj should be a linear fractional function, something like f_{0}(x)=(c^Tx+d)/(e^Tx+f). For your case, X=(a,b),c=(1,0),(e=0,1),d=f=0. To solve this kind of opt, something called linear fractional programming can be used. it's like linear constrainted version of linear fractional function and Charnes-Cooper transformation is applied to transform into a LP. You can find the main idea from wiki. Many OR books talk more about this such as pp53, pp165 in the Boyd's "convex optimization" (free to download).

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