We present a concept for solving topology design problems to proven global optimality. We propose that the problems are modeled using the approach of simultaneous analysis and design with discrete design variables and solved with convergent branch and bound type methods. This concept is illustrated on two applications. The first application is the design of stiff truss structures where the bar areas are chosen from a finite set of available areas. The second considered application is simultaneous topology and geometry design of planar articulated mechanisms. For each application we outline a convergent nonlinear branch and bound method and present a numerical example. © 2006 Springer.
CITATION STYLE
Stolpe, M., Achtziger, W., & Kawamoto, A. (2006). A concept for global optimization of topology design problems. In Solid Mechanics and its Applications (Vol. 137, pp. 185–194). Springer Verlag. https://doi.org/10.1007/1-4020-4752-5_19
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