• Title of article

    A computational framework for derivative-free optimization of cardiovascular geometries Original Research Article

  • Author/Authors

    Alison L. Marsden، نويسنده , , Jeffrey A. Feinstein، نويسنده , , Irene E. Vignon and Charles A. Taylor، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    16
  • From page
    1890
  • To page
    1905
  • Abstract
    Predictive simulation and optimization-based design tools have great potential to improve the design of surgeries and interventions used in cardiovascular medicine. The present work builds upon recent advances in blood flow simulation capabilities to develop tools for optimization. A framework for coupling optimal shape design to time-accurate three-dimensional blood flow simulations in idealized cardiovascular geometries is presented. The optimization method employed is a tailored version of the surrogate management framework, a method that was developed previously for expensive functions with little or no gradient information. In this method, we employ a derivative-free approach using surrogates for increased efficiency together with mesh adaptive direct search to guarantee convergence to a local minimum. The optimization procedure has been fully automated to include the generation and parameterization of three-dimensional solid geometries, mesh generation, finite element flow computation, post processing and optimization. This methodology is demonstrated on three model problems that are representative of typical cardiovascular geometries: a stenosis, a vessel bifurcation modeled on Murray’s law, and an end-to-side anastomosis. These problems are used to illustrate the importance of the choice of cost function and the performance of the optimization algorithm. This framework for treatment optimization will be applicable to a wide range of cardiovascular surgical or catheter-based interventions in future work.
  • Keywords
    Hemodynamics , Optimization , Surrogate , Cardiovascular , Murray’s law , Finite elements
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Serial Year
    2008
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Record number

    894228