Title page for ETD etd-09082005-185414


Type of Document Dissertation
Author Gantovnik, Vladimir
Author's Email Address gantovnik@gmail.com
URN etd-09082005-185414
Title An Improved Genetic Algorithm for the Optimization of Composite Structures
Degree PhD
Department Engineering Science and Mechanics
Advisory Committee
Advisor Name Title
Gürdal, Zafer Committee Chair
Asryan, Levon V. Committee Member
Librescu, Liviu Committee Member
Singh, Mahendra P. Committee Member
Watson, Layne T. Committee Member
Keywords
  • binary tree memory
  • composite structures
  • multivariate approximation
  • genetic algorithm
  • optimization
Date of Defense 2005-08-26
Availability unrestricted
Abstract
There are many diverse applications that are mathematically modelled in terms of mixed discrete-continuous variables. The optimization of these models is typically difficult due to their combinatorial nature and potential existence of multiple local minima in the search space. Genetic algorithms (GAs) are powerful tools for solving such problems. GAs do not require gradient or Hessian information. However, to reach an optimal solution with a high degree of confidence, they typically require a large number of analyses during the optimization search. Performance of these methods is even more of an issue for problems that include continuous variables.

The work here enhances the efficiency and accuracy of the GA with memory using multivariate approximations of the objective and constraint functions individually instead of direct approximations of the overall fitness function. The primary motivation for the proposed improvements is the nature of the fitness function in constrained engineering design optimization problems. Since GAs are algorithms for unconstrained optimization, constraints are typically incorporated into the problem formulation by augmenting the objective function of the original problem with penalty terms associated with individual constraint violations. The resulting fitness function is usually highly nonlinear and discontinuous, which makes the multivariate approximation highly inaccurate unless a large number of exact function evaluations are performed. Since the individual response functions in many engineering problems are mostly smooth functions of the continuous variables (although they can be highly nonlinear), high quality approximations to individual functions can be constructed without requiring a large number of function evaluations. The proposed modification improve the efficiency of the memory constructed in terms of the continuous variables. The dissertation presents the algorithmic implementation of the proposed memory scheme and demonstrates the efficiency of the proposed multivariate approximation procedure for the weight optimization of a segmented open cross section composite beam subjected to axial tension load. Results are generated to demonstrate the advantages of the proposed improvements to a standard genetic algorithm.

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