© 2018, Serbian Academic Center. All rights reserved. The use of continuous variables for cross-sectional dimensions in truss structural optimization gives solutions with a large number of different cross sections with specific dimensions which in practice would be expensive, or impossible to create. Even slight variations from optimal sizes can result in unstable structures which do not meet constraint criteria. This paper shows the influence of the use of discrete cross section sizes in optimization and compares results to continuous variable counterparts. In order to achieve the most practically applicable design solutions, Euler buckling dynamic constraints are added to all models. A typical space truss model from literature, which use ...
No ISSNThis paper proposes a method to solve discrete size optimization problems of frame structures...
Various design optimization methods for trusses layouts have been developed to find the optimum trus...
Difficulties in structural optimization under constraints on linear or nonlinear buckling load facto...
The use of continuous variables for cross-sectional dimensions in truss structural optimization give...
© 2020 Transactions of Famena. All rights reserved. This paper looks at sizing optimization results,...
In this paper the effects of adding buckling constraints to truss sizing optimization for minimizing...
This paper looks at sizing optimization results, and attempts to show the practical implications of ...
The complex problem of truss structural optimization, based on the discrete design variables assumpt...
A study on formulating truss topology optimization problems using continuous and binary variables is...
Structural design optimization can reduce both the consumption of natural resources by the construct...
The problems of optimal design of truss-type structures, aimed at determining the minimal volume (we...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
This paper studies the minimum weight design of space trusses under failure criteria, combining cont...
© 2015 American Society of Civil Engineers. Realistic truss design optimization problems are often g...
© 2019 Published by the Serbian Academic Center. In truss structural optimization the most frequentl...
No ISSNThis paper proposes a method to solve discrete size optimization problems of frame structures...
Various design optimization methods for trusses layouts have been developed to find the optimum trus...
Difficulties in structural optimization under constraints on linear or nonlinear buckling load facto...
The use of continuous variables for cross-sectional dimensions in truss structural optimization give...
© 2020 Transactions of Famena. All rights reserved. This paper looks at sizing optimization results,...
In this paper the effects of adding buckling constraints to truss sizing optimization for minimizing...
This paper looks at sizing optimization results, and attempts to show the practical implications of ...
The complex problem of truss structural optimization, based on the discrete design variables assumpt...
A study on formulating truss topology optimization problems using continuous and binary variables is...
Structural design optimization can reduce both the consumption of natural resources by the construct...
The problems of optimal design of truss-type structures, aimed at determining the minimal volume (we...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
This paper studies the minimum weight design of space trusses under failure criteria, combining cont...
© 2015 American Society of Civil Engineers. Realistic truss design optimization problems are often g...
© 2019 Published by the Serbian Academic Center. In truss structural optimization the most frequentl...
No ISSNThis paper proposes a method to solve discrete size optimization problems of frame structures...
Various design optimization methods for trusses layouts have been developed to find the optimum trus...
Difficulties in structural optimization under constraints on linear or nonlinear buckling load facto...