Differential Algebraic Equations in Primal Dual Interior Point Optimization Methods
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Date
2004
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Publisher
Amer inst Physics
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Abstract
Primal dual Interior Point Methods (IPMs) generate points that lie in the neighborhood of the central trajectory. The key ingredient of the primal dual IPMs is the parameterization of the central trajectory. A new approach to the parameterization of the central trajectory is presented. Instead of parameterizing the central trajectory by the barrier parameter, it is parameterized by the time by describing a continuous dynamical system. Specifically, a new update rule based on the solution of an ordinary differential equation for the barrier parameter of the primal dual IPMs is presented. The resulting ordinary differential equation combined with the first order Karush-Kuhn-Tucker (KKT) conditions, which are algebraic equations, are called differential algebraic equations (DAEs). By solving DAEs, we find an optimal solution to the given problem.
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Keywords
Interior Point Methods, Differential Algebraic Equations, Linear Programming,., Quadratic Programming, Central Trajectory
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Citation
Kasap, Suat; Trafalis, Theodore B. "Differential Algebraic Equations in Primal Dual Interior Point Optimization Methods", GLOBAL ANALYSIS AND APPLIED MATHEMATICS: International Workshop on Global Analysis, 15-17 April 2004 Ankara (Turkey), Vol. 729, No. 1.
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Q4
Source
International Workshop on Global Analysis -- APR 15-17, 2004 -- Cankaya Univ, Ankara, TURKEY
Volume
729
Issue
Start Page
347
End Page
354