Semi-infinite programming (SIP) problems can be efficiently solved by reduction-type methods. Here, we present a new reduction method for SIP, where the multi-local optimization is carried out with a stretched simulated annealing algorithm, the reduced (finite) problem is approximately solved by a Newton’s primal–dual interior point method that uses a novel twodimensional filter line search strategy to guarantee the convergence to a KKT point that is a minimizer, and the global convergence of the overall reduction method is promoted through the implementation of a classical two-dimensional filter line search. Numerical experiments with a set of well-known problems are shown
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...
Abstract: In this paper, a reduction-type method combined with a line search filter method to solve ...
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here, ...
Semi-infinite programming problems can be efficiently solved by reduction type methods. Here, we pre...
In this paper, a reduction-type method combined with a line search filter method to solve nonlinear ...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here,...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here, ...
We present a new reduction-type method for solving semi-infinite programming problems, where the mul...
This paper presents a new reduction-type method for solving semi-infinite programming problems, wher...
In this talk, some variants of reduction-type method combined with a line search filter method to s...
Abstract. Semi-infinite programming (SIP) problems can be efficiently solved by reduction type metho...
Semi-infinite programming problems can be efficiently solved by reduction type methods. In this work...
Semi-infinite programming (SIP) problems are characterized by a finite number of variables and an in...
In this paper, a reduction-type method combined with a line search filter method to solve nonlinear ...
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...
Abstract: In this paper, a reduction-type method combined with a line search filter method to solve ...
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here, ...
Semi-infinite programming problems can be efficiently solved by reduction type methods. Here, we pre...
In this paper, a reduction-type method combined with a line search filter method to solve nonlinear ...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here,...
Semi-infinite programming (SIP) problems can be efficiently solved by reduction type methods. Here, ...
We present a new reduction-type method for solving semi-infinite programming problems, where the mul...
This paper presents a new reduction-type method for solving semi-infinite programming problems, wher...
In this talk, some variants of reduction-type method combined with a line search filter method to s...
Abstract. Semi-infinite programming (SIP) problems can be efficiently solved by reduction type metho...
Semi-infinite programming problems can be efficiently solved by reduction type methods. In this work...
Semi-infinite programming (SIP) problems are characterized by a finite number of variables and an in...
In this paper, a reduction-type method combined with a line search filter method to solve nonlinear ...
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...
Abstract: In this paper, a reduction-type method combined with a line search filter method to solve ...
Here, we present some numerical experiments with a reduction method for solving nonlinear semi-infin...