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Arc-Search Techniques for Interior-Point Methods

Yaguang Yang
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A01=Yaguang Yang
advanced interior-point algorithm techniques
algorithmic complexity analysis
arc-search techniques
Author_Yaguang Yang
Category=PBUH
Category=PBW
Category=UMB
Category=UYA
Central Path
computational optimization
Convex optimization
Convex Quadratic Optimization Problem
CQP
Duality Gap
Duality Measure
Efficient algorithms
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Feasible Interior Point
Infeasible Interior Point
Infeasible Interior Point Algorithms
Infeasible Interior Point Method
Initial Point
Interior Point Algorithm
Interior Point Methods
interior-point method
LCP
Linear complementarity problem
Linear programming
Logarithmic Barrier Function
LP Problem
mathematical programming
Mehrotra's Predictor Corrector Algorithm
Mehrotra’s Predictor Corrector Algorithm
numerical methods for convex problems
Numerical optimization
Polynomial Bound
Polynomial bounds
Polynomiality
Polytope
Positive Semidefinite
potential reduction algorithms
Predictor Step
primal dual methods
Primal Dual Solution
Quadratic programming
Robust algorithms
SDP
Semidefinite programming

Product details

  • ISBN 9780367487287
  • Weight: 739g
  • Dimensions: 156 x 234mm
  • Publication Date: 27 Nov 2020
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

This book discusses an important area of numerical optimization, called interior-point method. This topic has been popular since the 1980s when people gradually realized that all simplex algorithms were not convergent in polynomial time and many interior-point algorithms could be proved to converge in polynomial time. However, for a long time, there was a noticeable gap between theoretical polynomial bounds of the interior-point algorithms and efficiency of these algorithms. Strategies that were important to the computational efficiency became barriers in the proof of good polynomial bounds. The more the strategies were used in algorithms, the worse the polynomial bounds became. To further exacerbate the problem, Mehrotra's predictor-corrector (MPC) algorithm (the most popular and efficient interior-point algorithm until recently) uses all good strategies and fails to prove the convergence. Therefore, MPC does not have polynomiality, a critical issue with the simplex method.

This book discusses recent developments that resolves the dilemma. It has three major parts. The first, including Chapters 1, 2, 3, and 4, presents some of the most important algorithms during the development of the interior-point method around the 1990s, most of them are widely known. The main purpose of this part is to explain the dilemma described above by analyzing these algorithms' polynomial bounds and summarizing the computational experience associated with them. The second part, including Chapters 5, 6, 7, and 8, describes how to solve the dilemma step-by-step using arc-search techniques. At the end of this part, a very efficient algorithm with the lowest polynomial bound is presented. The last part, including Chapters 9, 10, 11, and 12, extends arc-search techniques to some more general problems, such as convex quadratic programming, linear complementarity problem, and semi-definite programming.
About Yaguang Yang

Yaguang Yang received a BSc (1982) and a MSc (1985) from Huazhong University of Science and Technology, China. From 1985 to 1990, he was a lecturer at Zhejiang University in China. In 1996, he received his PhD from the Department of Electrical and Computer Engineering at the University of Maryland, College Park. He proposed and developed arc-search techniques for interior-point methods. He is currently with the US Nuclear Regulatory Commission.

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