The Complexity of Self-Regular Proximity Based Infeasible IPMs |
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| Authors: | Maziar Salahi Tamás Terlaky Guoqing Zhang |
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| Institution: | (1) Department of Mathematics and Statistics, McMaster University, Hamilton, Ontario, L8S 4K1, Canada;(2) Department of Mathematical Sciences, Sharif University of Technology, P.O. Box 11365-9415, Tehran, Iran;(3) Advanced Optimization Lab, Department of Computing and Software, McMaster University, Hamilton, Ontario, L8S 4L7, Canada;(4) Department of Industrial and Manufacturing Systems Engineering, University of Windsor, Windsor, Ontario, N9B 3P4, Canada |
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| Abstract: | Primal-Dual Interior-Point Methods (IPMs) have shown their power in solving large classes of optimization problems. In this
paper a self-regular proximity based Infeasible Interior Point Method (IIPM) is proposed for linear optimization problems.
First we mention some interesting properties of a specific self-regular proximity function, studied recently by Peng and Terlaky,
and use it to define infeasible neighborhoods. These simple but interesting properties of the proximity function indicate
that, when the current iterate is in a large neighborhood of the central path, large-update IIPMs emerge as the only natural
choice. Then, we apply these results to design a specific self-regularity based dynamic large-update IIPM in large neighborhood.
The new dynamic IIPM always takes large-updates and does not utilize any inner iteration to get centered. An
worst-case iteration bound of the algorithm is established. Finally, we report the main results of our computational experiments. |
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| Keywords: | linear optimization infeasible interior point method self-regular proximity function polynomial complexity |
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