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DTSTART:19810329T020000
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BEGIN:VEVENT
UID:news242@dmi.unibas.ch
DTSTAMP;TZID=Europe/Zurich:20180716T210058
DTSTART;TZID=Europe/Zurich:20160429T110000
SUMMARY:Seminar in Numerical Analysis: Andreas Rieder (Karlsruhe Institute 
 of Technology)
DESCRIPTION:Electrical impedance tomography is a non-invasive method for im
 aging the electrical conductivity of an object from voltage measurements o
 n its surface. This inverse problem suffers threefold: it is highly nonlin
 ear\, severely ill-posed\, and highly under-determined. To obtain yet reas
 onable reconstructions\, maximal information needs to be extracted from th
 e data. We will present and analyze a holistic Newton-type method which ad
 dresses all these challenges. Finally\, we demonstrate the performance of 
 this concept numerically for simulated and measured data.
X-ALT-DESC:Electrical impedance tomography is a non-invasive method for ima
 ging the electrical conductivity of an object from voltage measurements on
  its surface. This inverse problem suffers threefold: it is highly nonline
 ar\, severely ill-posed\, and highly under-determined. To obtain yet reaso
 nable reconstructions\, maximal information needs to be extracted from the
  data. We will present and analyze a holistic Newton-type method which add
 resses all these challenges. Finally\, we demonstrate the performance of t
 his concept numerically for simulated and measured data. 
DTEND;TZID=Europe/Zurich:20160429T120000
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