Open AccessA new approach to variable-topology shape design using a constraint on perimeter
Author(s) -
Robert B. Haber,
C. S. Jog,
M. P. Bends�e
Publication year - 1996
Publication title -
structural optimization
Language(s) - English
Resource type - Journals
eISSN - 1436-2503
pISSN - 0934-4373
DOI - 10.1007/bf01279647
Subject(s) - topology optimization , constraint (computer aided design) , topology (electrical circuits) , perimeter , shape optimization , grid , mathematics , mathematical optimization , variable (mathematics) , finite element method , computer science , geometry , engineering , mathematical analysis , structural engineering , combinatorics
This paper introduces a method for variable-topology shape optimization of elastic structures called theperimeter method. An upper-bound constraint on the perimeter of the solid part of the structure ensures a well-posed design problem. The perimeter constraint allows the designer to control the number of holes in the optimal design and to establish their characteristic length scale. Finite element implementations generate practical designs that are convergent with respect to grid refinement. Thus, an arbitrary level of geometric resolution can be achieved, so single-step procedures for topology design and detailed shape design are possible. The perimeter method eliminates the need for relaxation, thereby circumventing many of the complexities and restrictions of other approaches to topology design.
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