An exact penalty function method for nonlinear mixed discrete programming problems

An exact penalty function method for nonlinear mixed discrete programming problems

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Article ID: iaor2013250
Volume: 7
Issue: 1
Start Page Number: 23
End Page Number: 38
Publication Date: Jan 2013
Journal: Optimization Letters
Authors: , ,
Keywords: programming: nonlinear
Abstract:

In this paper, we consider a general class of nonlinear mixed discrete programming problems. By introducing continuous variables to replace the discrete variables, the problem is first transformed into an equivalent nonlinear continuous optimization problem subject to original constraints and additional linear and quadratic constraints. Then, an exact penalty function is employed to construct a sequence of unconstrained optimization problems, each of which can be solved effectively by unconstrained optimization techniques, such as conjugate gradient or quasi‐Newton methods. It is shown that any local optimal solution of the unconstrained optimization problem is a local optimal solution of the transformed nonlinear constrained continuous optimization problem when the penalty parameter is sufficiently large. Numerical experiments are carried out to test the efficiency of the proposed method.

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