Inequality/equality constrained optimization: an analytical robustness comparison of a feasibility method versus L1 sequential quadratic programming

Author

Driessen, Brian J. ; Sadegh, Nader

Author_Institution

Sandia Nat. Labs., Albuquerque, NM, USA

fYear

2002

fDate

2002

Firstpage

317

Lastpage

321

Abstract

In this work we present an analytical robustness comparison of two methods for inequality/equality constrained optimization or nonlinear programming. The methods compared are (1) a feasibility method (FM), and (2) sequential quadratic programming with an L1 merit function (L1-SQP). The problem statement assumptions include nonstationarity of constraint error norms except at zero constraint error, without which we are not aware of any algorithm that is provably guaranteed to converge to a tolerance-feasible stationary point of a penalty function or a Kuhn-Tucker point. Global convergence of FM is proved analytically. L1-SQP is shown to exhibit potential failure even from a feasible starting point, due to an onset of infeasible sub problems. We are not aware of an implementable SQP algorithm that has this provable global convergence property of FM

Keywords

convergence of numerical methods; nonlinear programming; quadratic programming; L1 merit function; L1 sequential quadratic programming; constraint error norms; feasibility method; feasible starting point; global convergence; global convergence property; inequality/equality constrained optimization; nonlinear programming; nonstationarity; sequential quadratic programming; Constraint optimization; Constraint theory; Convergence; Cost function; Dynamic programming; Iterative methods; Jacobian matrices; Laboratories; Quadratic programming; Robustness;

fLanguage

English

Publisher

ieee

Conference_Titel

SoutheastCon, 2002. Proceedings IEEE

Conference_Location

Columbia, SC

Print_ISBN

0-7803-7252-2

Type

conf

DOI

10.1109/.2002.995612

Filename

995612