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D.C. programming approach for multicommodity network optimization problems with step increasing cost functions
Authors:Le Thi Hoai An  Pham Dinh Tao
Affiliation:(1) Modelling, Applied Optimization and Operations Research Group, Laboratory of Mathematics, National Institute for Applied Sciences-Rouen, BP 8, F 76 131 Mont Saint Aignan, France
Abstract:We address a class of particularly hard-to-solve combinatorial optimization problems, namely that of multicommodity network optimization when the link cost functions are discontinuous step increasing. Unlike usual approaches consisting in the development of relaxations for such problems (in an equivalent form of a large scale mixed integer linear programming problem) in order to derive lower bounds, our d.c.(difference of convex functions) approach deals with the original continuous version and provides upper bounds. More precisely we approximate step increasing functions as closely as desired by differences of polyhedral convex functions and then apply DCA (difference of convex function algorithm) to the resulting approximate polyhedral d.c. programs. Preliminary computational experiments are presented on a series of test problems with structures similar to those encountered in telecommunication networks. They show that the d.c. approach and DCA provide feasible multicommodity flows x* such that the relative differences between upper bounds (computed by DCA) and simple lower bounds r:=(f(x*)-LB)/{f(x*)} lies in the range [4.2 %, 16.5 %] with an average of 11.5 %, where f is the cost function of the problem and LB is a lower bound obtained by solving the linearized program (that is built from the original problem by replacing step increasing cost functions with simple affine minorizations). It seems that for the first time so good upper bounds have been obtained.
Keywords:Multicommodity network flows  Step increasing cost function  Capacity assignment problem  Flow assignment problem  Mixed-integer linear program  d.c. (difference of convex functions) program  Polyhedral d.c. program  Relaxation techniques  DCA (d.c. algorithm)
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