• DocumentCode
    2455632
  • Title

    Using an Infinite Von Mises-Fisher Mixture Model to Cluster Treatment Beam Directions in External Radiation Therapy

  • Author

    Bangert, Mark ; Hennig, Philipp ; Oelfke, Uwe

  • Author_Institution
    German Cancer Res. Center, Heidelberg, Germany
  • fYear
    2010
  • fDate
    12-14 Dec. 2010
  • Firstpage
    746
  • Lastpage
    751
  • Abstract
    We present a method for fully automated selection of treatment beam ensembles for external radiation therapy. We reformulate the beam angle selection problem as a clustering problem of locally ideal beam orientations distributed on the unit sphere. For this purpose we construct an infinite mixture of von Mises-Fisher distributions, which is suited in general for density estimation from data on the D-dimensional sphere. Using a nonparametric Dirichlet process prior, our model infers probability distributions over both the number of clusters and their parameter values. We describe an efficient Markov chain Monte Carlo inference algorithm for posterior inference from experimental data in this model. The performance of the suggested beam angle selection framework is illustrated for one intra-cranial, pancreas, and prostate case each. The infinite von Mises-Fisher mixture model (iMFMM) creates between 18 and 32 clusters, depending on the patient anatomy. This suggests to use the iMFMM directly for beam ensemble selection in robotic radio surgery, or to generate low-dimensional input for both subsequent optimization of trajectories for arc therapy and beam ensemble selection for conventional radiation therapy.
  • Keywords
    Markov processes; Monte Carlo methods; biological techniques; medical robotics; physiological models; radiation therapy; statistical distributions; tumours; D-dimensional sphere; Markov chain Monte Carlo inference algorithm; arc therapy; beam angle selection framework; beam angle selection problem; cluster treatment beam directions; clustering problem; density estimation; external radiation therapy; fully automated selection; infinite mixture; infinite von Mises-Fisher mixture model; intracranial case; nonparametric Dirichlet process; pancreas; patient anatomy; posterior inference; probability distributions; prostate case; robotic radiosurgery; Artificial neural networks; Biomedical applications of radiation; Correlation; Markov processes; Monte Carlo methods; Optimization; Pancreas; Beam Angle Optimization; Directional Statistics; Nonparametric Bayesian Inference; Radiation Therapy; Treatment Planning;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Machine Learning and Applications (ICMLA), 2010 Ninth International Conference on
  • Conference_Location
    Washington, DC
  • Print_ISBN
    978-1-4244-9211-4
  • Type

    conf

  • DOI
    10.1109/ICMLA.2010.114
  • Filename
    5708936