Title :
An Efficient Maximization Algorithm With Implications in Min-Max Predictive Control
Author :
Alamo, T. ; de La Peña, D. Muñoz ; Camacho, E.F.
Author_Institution :
Dept. de Ing. de Sist. y Autom., Univ. de Sevilla, Sevilla
Abstract :
In this technical note, an algorithm for binary quadratic programs defined by matrices with band structure is proposed. It was shown in the article by T. Alamo, D. M. de la Pentildea, D. Limon, and E. F. Camacho, ldquoConstrained min-max predictive control: modifications of the objective function leading to polynomial complexity,rdquo IEEE Tran. Autom. Control, vol. 50, pp. 710-714, May 2005, that this class of problems arise in robust model predictive control when min-max techniques are applied. Although binary quadratic problems belongs to a class of NP-complete problems, the computational burden of the proposed maximization algorithm for band matrices is polynomial with the dimension of the optimization variable and exponential with the band size. Computational results and comparisons on several hundred test problems demonstrate the efficiency of the algorithm.
Keywords :
minimax techniques; polynomial matrices; predictive control; quadratic programming; robust control; NP-complete problems; band matrices; band structure; binary quadratic programs; efficient maximization algorithm; min-max techniques; robust model predictive control; Linear systems; NP-complete problem; Polynomials; Predictive control; Predictive models; Quadratic programming; Robust control; Testing; Traffic control; Uncertainty; Band matrices; binary quadratic programming; combinatorial optimization; min-max techniques; model predictive control;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2008.921001
