T
Tamás Terlaky
Researcher at Lehigh University
Publications - 249
Citations - 7212
Tamás Terlaky is an academic researcher from Lehigh University. The author has contributed to research in topics: Linear programming & Interior point method. The author has an hindex of 38, co-authored 238 publications receiving 6626 citations. Previous affiliations of Tamás Terlaky include McMaster University & McMaster-Carr.
Papers
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Journal ArticleDOI
On implementing a primal-dual interior-point method for conic quadratic optimization
TL;DR: The main features of the implementation are it is based on a homogeneous and self-dual model, it handles rotated quadratic cones directly, it employs a Mehrotra type predictor-corrector extension and sparse linear algebra to improve the computational efficiency and it exploits fixed variables which naturally occurs in many conic Quadratic optimization problems.
Book
Theory and algorithms for linear optimization : an interior point approach
TL;DR: This chapter discusses duality Theory for Linear Optimization, a Polynomial Algorithm for the Skew-Symmetric Model, and Parametric and Sensitivity Analysis, as well as implementing Interior Point Methods.
Journal ArticleDOI
A Survey of the S-Lemma
Imre Pólik,Tamás Terlaky +1 more
TL;DR: A unified analysis of the S-lemma is given by providing three different proofs for the theory and revealing hidden connections with various areas of mathematics, to prove some new duality results and present applications from control theory, error estimation, and computational geometry.
Book ChapterDOI
Interior Point Methods for Nonlinear Optimization
Imre Pólik,Tamás Terlaky +1 more
TL;DR: After more than a decade of turbulent research, the IPM community reached a good understanding of the basics of IPMs and several books were published that summarize and explore different aspects of IPM's.
Book
Self-Regularity: A New Paradigm for Primal-Dual Interior-Point Algorithms
TL;DR: An apparatus and method for continuously detecting oxygen in a carrier gas stream using a sensor film comprising a fluorescent material emitting from 3000 - 8000 A, dissolved inA carrier or solvent, the film being supported on a suitable substrate.