Publication detail

Optimization of a Tunnel Lining

ŠTĚPÁNEK, P. LANÍKOVÁ, I. VENCLOVSKÝ, J.

Original Title

Optimization of a Tunnel Lining

English Title

Optimization of a Tunnel Lining

Type

conference paper

Language

en

Original Abstract

This contribution describes an algorithm for the optimized design of concrete structures. The principle of a solution for the problem of reinforcement design optimization in concrete structures is introduced. The target function is defined as the minimum cost of used materials. A method (algorithm) of obtaining a useful reinforcement design (via the implementation of reinforcement types) from an optimal solution is described. A solved example of the optimized design of a tunnel lining is attached.

English abstract

This contribution describes an algorithm for the optimized design of concrete structures. The principle of a solution for the problem of reinforcement design optimization in concrete structures is introduced. The target function is defined as the minimum cost of used materials. A method (algorithm) of obtaining a useful reinforcement design (via the implementation of reinforcement types) from an optimal solution is described. A solved example of the optimized design of a tunnel lining is attached.

Keywords

optimization; concrete; reinforcement; concrete structure design; tunnel lining; Winkler foundation

RIV year

2015

Released

23.06.2015

Location

Brno

ISBN

978-3-319-19823-1

Book

Mendel 2015, 21st International Conference on Soft Computing

Pages from

175

Pages to

182

Pages count

8

BibTex


@inproceedings{BUT115480,
  author="Petr {Štěpánek} and Ivana {Laníková} and Jakub {Venclovský}",
  title="Optimization of a Tunnel Lining",
  annote="This contribution describes an algorithm for the optimized design of concrete structures. The principle of a solution for the problem of reinforcement design optimization in concrete structures is introduced. The target function is defined as the minimum cost of used materials. A method (algorithm) of obtaining a useful reinforcement design (via the implementation of reinforcement types) from an optimal solution is described. A solved example of the optimized design of a tunnel lining is attached.",
  booktitle="Mendel 2015, 21st International Conference on Soft Computing",
  chapter="115480",
  howpublished="print",
  year="2015",
  month="june",
  pages="175--182",
  type="conference paper"
}