A Robust Choice of the Lagrange Multiplier in the SQP Newton Method

Abstract

We study the choice of the Lagrange multipliers in the successive quadratic programming method (SQP) for equality constrained optimization. It is known that the augmented Lagrangian SQP-Newton method depends on the penalty parameter only through the multiplier in the Hessian matrix of the Lagrangian function. This effectively reduces the augmented Lagrangian SQP-Newton method to the Lagrangian SQP-Newton method where only the multiplier estimate depends on the penalty parameter. In this work, we construct a multiplier estimate that depends strongly on the penalty parameter and derive a choice for the penalty parameter that attempts to make the Hessian matrix, restricted to the tangent space of the constraints, positive definite and well conditioned. We demonstrate that the SQP-Newton method with this choice of Lagrange multipliers is locally and q-quadratically convergent. Considerable numerical experiment at ion is included and shows that our approach merits further investigation.

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Document Details

Document Type
Technical Report
Publication Date
Oct 01, 1994
Accession Number
ADA444966

Entities

People

  • Debora Cores
  • Richard A. Tapia

Organizations

  • Rice University

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DTIC Thesaurus Topics

  • Abstracts
  • Algorithms
  • Applied Mathematics
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  • Evolutionary Algorithms
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  • Mathematics

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  • Operations Research

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