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Identification of mechanical properties of arteries with certification of global optimality

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  • Jan-Lucas Gade

    (Linköping University)

  • Carl-Johan Thore

    (Linköping University)

  • Jonas Stålhand

    (Linköping University)

Abstract

In this study, we consider identification of parameters in a non-linear continuum-mechanical model of arteries by fitting the models response to clinical data. The fitting of the model is formulated as a constrained non-linear, non-convex least-squares minimization problem. The model parameters are directly related to the underlying physiology of arteries, and correctly identified they can be of great clinical value. The non-convexity of the minimization problem implies that incorrect parameter values, corresponding to local minima or stationary points may be found, however. Therefore, we investigate the feasibility of using a branch-and-bound algorithm to identify the parameters to global optimality. The algorithm is tested on three clinical data sets, in each case using four increasingly larger regions around a candidate global solution in the parameter space. In all cases, the candidate global solution is found already in the initialization phase when solving the original non-convex minimization problem from multiple starting points, and the remaining time is spent on increasing the lower bound on the optimal value. Although the branch-and-bound algorithm is parallelized, the overall procedure is in general very time-consuming.

Suggested Citation

  • Jan-Lucas Gade & Carl-Johan Thore & Jonas Stålhand, 2022. "Identification of mechanical properties of arteries with certification of global optimality," Journal of Global Optimization, Springer, vol. 82(1), pages 195-217, January.
  • Handle: RePEc:spr:jglopt:v:82:y:2022:i:1:d:10.1007_s10898-021-01037-8
    DOI: 10.1007/s10898-021-01037-8
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    References listed on IDEAS

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    1. Jan-Lucas Gade & Jonas Stålhand & Carl-Johan Thore, 2019. "An in vivo parameter identification method for arteries: numerical validation for the human abdominal aorta," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 22(4), pages 426-441, March.
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