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


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. 


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
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
but feasible for



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 CharnesCooper 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). 

