Dr. Jennifer Mueller - Department of Mathematics at Colorado State University
Dr. Jennifer Mueller - Department of Mathematics at Colorado State University

 
Home

Projects

People

Publications
  Movies for the paper Dynamic optimized priors for D-bar reconstructions of human ventilation using electrical impedance tomography, M. Alsaker, J.L. Mueller and R. Murthy, 2017

Movies of dynamic heart and lungs prior with diaphragm (shape of outer and organ boundaries) (Figure 6) .avi file

Reconstructions of ventilation with the D-bar method with no prior (Figure 7) .avi file

Reconstructions of ventilation with the D-bar method with static conductivity priors (Figure 8) .avi file

Reconstructions of ventilation with the D-bar method and a dynamic heart and lungs prior (Figure 9).avi file

Reconstructions of ventilation with the D-bar method and a dynamic heart and lungs prior with diaphragm (Figure 10).avi file

Movies for the paper Real-time implementation of Calderon's method on subject-specific domains, P. A. Muller, J.L. Mueller and M. M. Mellenthin, 2016

Conductivity changes due to ventilation reconstructed on a circular domain by Calderon's method .avi file

Conductivity changes due to ventilation reconstructed on a subject-specific domain by Calderon's method .avi file

Conductivity changes due to ventilation reconstructed on a subject-specific domain by the D-ar method .avi file

Conductivity changes due to perfusion reconstructed on a subject-specific domain by Calderon's method .avi file

Movies for the paper Direct 2-D reconstructions of conductivity and permittivity from EIT data on a human chest, C.N.L. Herrera, M.F.M. Vallejo, J.L. Mueller and R.G. Lima, 2013

Conductivity changes due to ventilation reconstructed on a noncircular domain by the fully nonlinear D-bar method .mov file

Permittivity changes due to ventilation reconstructed on a noncircular domain by a D-bar method for reconstructing a complex admittivity .mov file

Conductivity changes due to perfusion reconstructed on a circular domain by the fully nonlinear D-bar method .mpg file

Permittivity changes due to perfusion reconstructed on a circular domain by a D-bar method for reconstructing a complex admittivity .mpg file

Conductivity changes due to perfusion reconstructed on a noncircular domain by the fully nonlinear D-bar method .mov file

Permittivity changes due to perfusion reconstructed on a noncircular domain by a D-bar method for reconstructing a complex admittivity .mov file