Now showing items 1-5 of 5

    • Classification applied to brain haemorrhage detection: Initial phantom studies using electrical impedance measurements 

      McDermott, Barry; O'Halloran, Martin; Santorelli, Adam; McGinley, Brian; Porter, Emily (EIT2018, 2018-06-11)
      Machine learning and classification algorithms are applied to data collected from an EIT system. The system is used with an anatomically accurate head phantom setup in a variety of situations modelling normal and haemorrhagic ...
    • Electrical impedance tomography with exploitation of symmetry 

      McDermott, Barry; Porter, Emily; Jones, Marggie; McGinley, Brian; O'Halloran, Martin (Bioengineering in Ireland 2018, 2018-01-26)
      Electrical Impedance Tomography (EIT) is an imaging technique involving an electrode array positioned around the area of interest. Alternating current is injected, and voltage measured, between electrode pairs in a prescribed ...
    • The Influence of Cell Type on Artificial Development 

      Maher, John; Morgan, Fearghal; O'Riordan, Colm; McGinley, Brian (2013)
      Two variants of biologically inspired cell model, namely eukaryotic (containing a nucleus) and prokaryotic (without a nucleus) are compared in this research. Experiments are designed to provide an understanding of how the ...
    • A novel tissue-mimicking material for phantom development in medical applications of EIT 

      McDermott, Barry; Porter, Emily; Jones, Marggie; McGinley, Brian; O'Halloran, Martin (EIT2017, 2017-06-21)
      A solid Tissue-Mimicking Material (TMM) with adjustable conductivity properties, which can be matched to those of biological tissue, is presented. TMM models of breast fat and gland matching the conductivity of real tissue ...
    • Realistic 3D finite element mesh of the adult human pelvis for electrical impedance tomography 

      Dunne, Eoghan; Porter, Emily; McGinley, Brian; O'Halloran, Martin (Zenodo, 2017-06-21)
      The finite element method is a numerical technique used to solve forward models for electrical impedance tomography. To date, realistic finite element models (FEMs) have been created for the head and thorax, but pelvic ...