Combinatorial reliability-based optimization of nonlinear finite element model using an artificial neural network-based approximation

článek ve sborníku ve WoS nebo Scopus

angličtina

The paper describes the reliability-based optimization of TT shaped precast roof girder produced in Austria. Extensive experimental studies on small specimens and small and full-scale beams have been performed to gain information on fracture mechanical behaviour of utilized concrete. Subsequently, the destructive shear tests under laboratory conditions were performed. Experiments helped to develop an accurate numerical model of the girder. The developed model was consequently used for advanced stochastic analysis of structural response followed by reliability-based optimization to maximize shear and bending capacity of the beam and minimize production cost under defined reliability constraints. The enormous computational requirements were significantly reduced by the utilization of artificial neural network-based approximations of the original nonlinear finite element model of optimized structure.

Reliability-based optimization, combinatorial optimization, heuristic optimization, artificial neural network, double-loop reliability-based optimization, prestressed concrete girder optimization, stochastic analysis.

SLOWIK, O.; LEHKÝ, D.; NOVÁK, D.

8. 1. 2021

Siena, Italy

978-3-030-64583-0

Lecture Notes in Computer Science

359

371

13