Now showing items 1-4 of 4

    • Development of advanced geometric models and acceleration techniques for Monte Carlo simulation in Medical Physics 

      Badal Soler, Andreu (Universitat Politècnica de Catalunya, 2008-04-24)
      Doctoral thesis
      Open Access
      Els programes de simulació Monte Carlo de caràcter general s'utilitzen actualment en una gran varietat d'aplicacions.<br/>Tot i això, els models geomètrics implementats en la majoria de programes imposen certes limitacions ...
    • Fast Monte Carlo codes for occupational dosimetry in interventional radiology 

      García Balcaza, Víctor; Camp Brunés, Anna; Badal Soler, Andreu; Andersson, Martin; Almén, Anja; Ginjaume Egido, Mercè; Duch Guillen, María Amor (2021-05)
      Article
      Open Access
      Interventional radiology techniques cause radiation exposure both to patient and personnel. The radiation dose to the operator is usually measured with dosimeters located at specific points above or below the lead aprons. ...
    • PenMesh-Monte Carlo radiation transport simulation in a triangle mesh geometry 

      Badal Soler, Andreu; Kyprianou, Iacovos; Banh, Diem Phuc; Badano, Aldo; Sempau Roma, Josep (2009-12)
      Article
      Open Access
      We have developed a general-purpose Monte Carlo simulation code, called penMesh, that combines the accuracy of the radiation transport physics subroutines from PENELOPE and the flexibility of a geometry based on triangle ...
    • PyMCGPU-IR Monte Carlo code test for occupational dosimetry 

      García Balcaza, Víctor; Fernández Bosman, David; Badal Soler, Andreu; Von Barnekow, Ariel; O'Connor, Una; Camp Brunés, Anna; Aranda López, Juan; Ginjaume Egido, Mercè; Duch Guillen, María Amor (2023-05-24)
      Article
      Restricted access - publisher's policy
      PyMCGPU-IR is an innovative occupational dose monitoring tool for interventional radiology procedures. It reads the radiation data from the Radiation Dose Structured Report of the procedure and combines this information ...