A parameter-free multiplier method for constrained minimization problems

摘要

This paper is concerned with the development of a parameter-free method, closely related to penalty function and multiplier methods, for solving constrained minimization problems. The method is developed via the quadratic programming model with equality constraints. The study starts with an investigation into the convergence properties of a so-called “primal-dual differential trajectory”, defined by directions given by the direction of steepest descent with respect to the variables x of the problem, and the direction of steepest ascent with respect to the Lagrangian multipliers λ, associated with the Lagrangian function. It is shown that the trajectory converges to a stationary point (x*, λ*) corresponding to the solution of the equality constrained problem. Subsequently numerical procedures are proposed by means of which practical trajectories may be computed and the convergence of these trajectories are analyzed. A computational algorithm is presented and its application is illustrated by means of simple but representative examples. The extension of the method to inequality constrained problems is discussed and a non-rigorous argument, based on the Kuhn—Tucker necessary conditions for a constrained minimum, is put forward on which a practical procedure for determining the solution is based. The application of the method to inequality constrained problems is illustrated by its application to a couple of simple problems.