2011
DOI: 10.1007/s00158-011-0715-y
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Minmax topology optimization

Abstract: We describe a systematic approach for the robust optimal design of linear elastic structures subjected to unknown loading using minmax and topology optimization methods. Assuming only the loading region and norm, we distribute a given amount of material in the design domain to minimize the principal compliance, i.e. the maximum compliance that is produced by the worst-case loading scenario. We evaluate the principal compliance directly by satisfying the optimality conditions which take the form of a Steklov ei… Show more

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Cited by 23 publications
(6 citation statements)
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References 31 publications
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“…The load vector is given by bold-italicffalse(bold-italicrfalse)=bold-italicQsans-serifTbold-italicr, where r satisfies ‖ r ‖ ≤ 1, in which ‖·‖ is the Euclidean norm, and Q is a given matrix. This is an example of the so‐called ellipsoidal model used by many researchers to model load uncertainty . The compliance is now given by cfalse(bold-italicx,bold-italicrfalse)=bold-italicffalse(bold-italicrfalse)sans-serifTbold-italicK1false(bold-italicxfalse)bold-italicffalse(bold-italicrfalse)=bold-italicrsans-serifTbold-italicQbold-italicKfalse(bold-italicxfalse)1bold-italicQsans-serifTbold-italicr. Since c is convex as a function of r , the maximizers are found among the extreme points of the set false{bold-italicrdouble-struckRd3.0235ptfalse|3.0235ptfalse‖bold-italicrfalse‖1false}.…”
Section: Topology Optimization Under Load‐uncertaintymentioning
confidence: 99%
See 1 more Smart Citation
“…The load vector is given by bold-italicffalse(bold-italicrfalse)=bold-italicQsans-serifTbold-italicr, where r satisfies ‖ r ‖ ≤ 1, in which ‖·‖ is the Euclidean norm, and Q is a given matrix. This is an example of the so‐called ellipsoidal model used by many researchers to model load uncertainty . The compliance is now given by cfalse(bold-italicx,bold-italicrfalse)=bold-italicffalse(bold-italicrfalse)sans-serifTbold-italicK1false(bold-italicxfalse)bold-italicffalse(bold-italicrfalse)=bold-italicrsans-serifTbold-italicQbold-italicKfalse(bold-italicxfalse)1bold-italicQsans-serifTbold-italicr. Since c is convex as a function of r , the maximizers are found among the extreme points of the set false{bold-italicrdouble-struckRd3.0235ptfalse|3.0235ptfalse‖bold-italicrfalse‖1false}.…”
Section: Topology Optimization Under Load‐uncertaintymentioning
confidence: 99%
“…This is an example of the so-called ellipsoidal model used by many researchers to model load uncertainty. 3,4,6,[8][9][10][31][32][33][34][35][36][37][38][39][40][41] The compliance is now given by…”
Section: Topology Optimization Under Load-uncertaintymentioning
confidence: 99%
“…These problems may, assuming small deformations and using certain load parametrizations, be cast as generalized eigenvalue problems (Brittain et al 2012;Cherkaev and Cherkaev 2008;Takezawa et al 2011) or as semidefinite programming problems ; Thore et al 2015). In this paper however we propose a much more general game theoretic framework for TO under loaduncertainty including a wide range of different objective functions and constraints.…”
Section: Introductionmentioning
confidence: 99%
“…Appendix A). Choosing the compliance as the objective function and a suitable loading parametrization one can retrieve the generalized eigenvalue problems (Brittain et al 2012;Cherkaev and Cherkaev 2008;Takezawa et al 2011;Kobelev 1993) or semi-definite programming problems Thore et al 2015) mentioned above. When applicable these formulations may be more efficient, but compared to the proposed game theory framework they are very limited in that they only apply to zero-sum games with certain choices of functions and parametrizations.…”
Section: Introductionmentioning
confidence: 99%
“…Recently multiscale design of material and structure has seen a strong progress with the use of optimization methods, namely topology optimization based methodologies. The works in [2][3][4][5][6][7][8][9][10][11][12][13][14][15] describe some of these recent developments. To formulate and solve the multiscale optimal design problem, we follow a hierarchical approach, as described in [16].…”
Section: Introductionmentioning
confidence: 99%