This article introduces a scenario optimization framework for reliability-based design given a set of observations of uncertain parameters. In contrast to traditional methods, scenario optimization makes direct use of the available data thereby eliminating the need for creating a probabilistic model of the uncertainty in the parameters. This feature makes the resulting design exempt from the subjectivity caused by prescribing an uncertainty model from insufficient data. Furthermore, scenario theory enables rigorously bounding the probability of the resulting design satisfying the reliability requirements imposed upon it with respect to additional, unseen observations drawn from the same data-generating-mechanism. This bound, which is non-as...
Reliability-based design requires the optimization of the probability of failure, over the admissibl...
Existing methods for design optimization under uncertainty assume that a high level of information i...
Reliability-based design of a system often requires the minimization of the probability of system fa...
This article introduces a scenario optimization framework for reliability-based design given a set o...
This article introduces a scenario optimization framework for reliability-based design given measure...
Reliability-based design approaches via scenario optimization are driven by data thereby eliminating...
The design of optimal and reliable systems is an objective which is pursued in several fields of eng...
Structural reliability technology provides analytical tools for management of uncertainty in all rel...
This paper presents a study on the optimization of systems with structured uncertainties, whose inpu...
Design problems that involve optimization of the reliability of engineering systems are the focus of...
Algorithms for solving three classes of reliability-based optimal design problems are presented. Th...
In reliability-based design (RBD), uncertainties are usually treated stochastically, and nondetermin...
Solutions to the deterministic design optimization cannot consider the uncertainties that may occur ...
This paper considers structural optimization under a reliability constraint, where the input distrib...
Reliability-based design requires the optimization of the probability of failure, over the admissibl...
Existing methods for design optimization under uncertainty assume that a high level of information i...
Reliability-based design of a system often requires the minimization of the probability of system fa...
This article introduces a scenario optimization framework for reliability-based design given a set o...
This article introduces a scenario optimization framework for reliability-based design given measure...
Reliability-based design approaches via scenario optimization are driven by data thereby eliminating...
The design of optimal and reliable systems is an objective which is pursued in several fields of eng...
Structural reliability technology provides analytical tools for management of uncertainty in all rel...
This paper presents a study on the optimization of systems with structured uncertainties, whose inpu...
Design problems that involve optimization of the reliability of engineering systems are the focus of...
Algorithms for solving three classes of reliability-based optimal design problems are presented. Th...
In reliability-based design (RBD), uncertainties are usually treated stochastically, and nondetermin...
Solutions to the deterministic design optimization cannot consider the uncertainties that may occur ...
This paper considers structural optimization under a reliability constraint, where the input distrib...
Reliability-based design requires the optimization of the probability of failure, over the admissibl...
Existing methods for design optimization under uncertainty assume that a high level of information i...
Reliability-based design of a system often requires the minimization of the probability of system fa...