Publication detail

Optimisation of building structures I (DBSO)

PLŠEK, J. ŠTĚPÁNEK, P.

Original Title

Optimisation of building structures I (DBSO)

English Title

Optimisation of building structures I (DBSO)

Type

journal article - other

Language

en

Original Abstract

This contribution deals with a deterministic-based structural optimisation (DBSO). The introductory part of the paper covers a short overview of optimisation algorithms applicable to deterministic-based problems, general DBSO formulation and a target function(s) pattern for structural design. The following part gives attention to particular problem of general RC (reinforced concrete) cross-sectional design subjected to normal force and bending moments (ULS, i.e. ultimate limit state). The solution approach is further augmented to RC frame structures problems and a numerical example of a collector tube design is presented.

English abstract

This contribution deals with a deterministic-based structural optimisation (DBSO). The introductory part of the paper covers a short overview of optimisation algorithms applicable to deterministic-based problems, general DBSO formulation and a target function(s) pattern for structural design. The following part gives attention to particular problem of general RC (reinforced concrete) cross-sectional design subjected to normal force and bending moments (ULS, i.e. ultimate limit state). The solution approach is further augmented to RC frame structures problems and a numerical example of a collector tube design is presented.

Keywords

optimisation, concrete, reinforcement, deterministic

RIV year

2010

Released

01.12.2010

Location

Brno

Pages from

307

Pages to

322

Pages count

16

BibTex


@article{BUT49457,
  author="Jan {Plšek} and Petr {Štěpánek}",
  title="Optimisation of building structures I (DBSO)",
  annote="This contribution deals with a deterministic-based structural optimisation (DBSO). The
introductory part of the paper covers a short overview of optimisation algorithms applicable
to deterministic-based problems, general DBSO formulation and a target function(s) pattern
for structural design. The following part gives attention to particular problem of general RC
(reinforced concrete) cross-sectional design subjected to normal force and bending moments
(ULS, i.e. ultimate limit state). The solution approach is further augmented to RC frame structures
problems and a numerical example of a collector tube design is presented.",
  chapter="49457",
  journal="Engineering Mechanics",
  number="5/6",
  volume="17",
  year="2010",
  month="december",
  pages="307--322",
  type="journal article - other"
}