Maximizing the information content in acquired measurements of a parallel plate non-contact FDOT while minimizing the computational cost: singular value analysis
JavaScript is disabled for your browser. Some features of this site may not work without it.
Maximizing the information content in acquired measurements of a parallel plate non-contact FDOT while minimizing the computational cost: singular value analysis
Citation:
European Society for Molecular Imaging. 4th European Molecular Imaging Meeting, Barcelona, Spain, May 27 to May 30, 2009: abstract book, p. 162
Sponsor:
This work is supported in part by fundación Caja navarra (#12180), Ministerio de Ciencia e innovación (TeC2008-06715 and TeC2007-64731) and fP7 project fMTxCT-201792
Rights:
Atribución-NoComercial-SinDerivadas 3.0 España
Abstract:
This work
assesses the effect of different settings of the acquisition parameters (distribution of mesh points,
density of sources and detectors) of a parallel-plate non-contact fdoT, in order to achieve the best
possible imaging performance, i.e. using theThis work
assesses the effect of different settings of the acquisition parameters (distribution of mesh points,
density of sources and detectors) of a parallel-plate non-contact fdoT, in order to achieve the best
possible imaging performance, i.e. using the minimum number of singular values of W to maximize
the information content in acquired measurements while minimizing the computational cost[+][-]
Description:
[Poster] 4th European Molecular Imaging Meeting, Barcelona, Spain, May 27 - 30, 2009