Title :
An efficient outer approximations algorithm for solving infinite sets of inequalities
Author :
Mayne, D.Q. ; Michalska, H. ; Polak, E.
Abstract :
Many control design constraints may be formulated as semi-infinite constraints. Examples include hard constraints on time and frequency responses and robustness constraints. A useful algorithm for solving such inequalities is the outer approximations algorithm. The standard outer approximations algorithm for solving an infinite set of inequalities φ(x,y)⩽0 for all y∈ Y proceeds by solving at iteration i of the master algorithm, a finite set of inequalities (φ(x,y)⩽0 for all y∈Y i⊂Y) to yield xi and then updating Yi to Yi+1=Y i∪{yi} where yi∈arg max {φ(xi,y )|y∈Y}. Since global optimization is computationally extremely expensive, it is desirable to reduce the number of such optimizations. A modified version of the outer approximations algorithm which achieves this objective is presented
Keywords :
approximation theory; computational complexity; control system synthesis; control design constraints; efficient outer approximations algorithm; frequency response constraints; hard constraints; infinite sets of inequalities; robustness constraints; semi-infinite constraints; time response constraints; Approximation algorithms; Constraint optimization; Control design; Convergence; Design engineering; Design optimization; Educational institutions; Frequency; Robustness; Time factors;
Conference_Titel :
Decision and Control, 1990., Proceedings of the 29th IEEE Conference on
Conference_Location :
Honolulu, HI
DOI :
10.1109/CDC.1990.203734
