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Approximate solution of system of equations arising in interior-point methods for bound-constrained optimization

David Ek () and Anders Forsgren ()
Additional contact information
David Ek: KTH Royal Institute of Technology
Anders Forsgren: KTH Royal Institute of Technology

Computational Optimization and Applications, 2021, vol. 79, issue 1, No 6, 155-191

Abstract: Abstract The focus in this paper is interior-point methods for bound-constrained nonlinear optimization, where the system of nonlinear equations that arise are solved with Newton’s method. There is a trade-off between solving Newton systems directly, which give high quality solutions, and solving many approximate Newton systems which are computationally less expensive but give lower quality solutions. We propose partial and full approximate solutions to the Newton systems. The specific approximate solution depends on estimates of the active and inactive constraints at the solution. These sets are at each iteration estimated by basic heuristics. The partial approximate solutions are computationally inexpensive, whereas a system of linear equations needs to be solved for the full approximate solution. The size of the system is determined by the estimate of the inactive constraints at the solution. In addition, we motivate and suggest two Newton-like approaches which are based on an intermediate step that consists of the partial approximate solutions. The theoretical setting is introduced and asymptotic error bounds are given. We also give numerical results to investigate the performance of the approximate solutions within and beyond the theoretical framework.

Keywords: Interior-point methods; Bound-constrained optimization; Approximate solution of system of linear equations; Newton-like approaches (search for similar items in EconPapers)
Date: 2021
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (1)

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DOI: 10.1007/s10589-021-00265-8

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