Structural Design via Genetic Optimization

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DOI: 10.4236/mme.2017.73006    1,468 Downloads   3,549 Views  Citations

ABSTRACT

Structural designs (i.e. truss structures) are derived by the use of a three phase genetic optimization approach, where the minimization of volume is the objective of each truss structure considered. A genetic algorithm is employed which controls the three phase optimization technique. The first phase utilizes the conventional functionality of the genetic algorithm from an evolutionary perspective, however designer interaction by the use of constant rules is provided to ensure an effective evolutionary search outcome. The second phase enhances the best design constructed from phase one by the use of domain specific knowledge in the form of design rules. Phase three improves the final design assembled within phase two by the reduction of truss element areas. This refinement process ensures that the design constraints provided are active, indicating an optimal search solution. All phases operate from a global perspective; however the phase two optimization methodology operates from a more radical approach which encompasses the concept of designing from a “blank sheet of paper” point of view. Results are provided upon the conclusion of each truss example considered which includes the outcomes of each phase for comparison purposes.

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Webb, D. , Alobaidi, W. and Sandgren, E. (2017) Structural Design via Genetic Optimization. Modern Mechanical Engineering, 7, 73-90. doi: 10.4236/mme.2017.73006.
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