J
Jari P. Kaipio
Researcher at University of Auckland
Publications - 272
Citations - 11543
Jari P. Kaipio is an academic researcher from University of Auckland. The author has contributed to research in topics: Inverse problem & Electrical impedance tomography. The author has an hindex of 49, co-authored 270 publications receiving 10666 citations. Previous affiliations of Jari P. Kaipio include GE Healthcare & University of Eastern Finland.
Papers
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Model reduction in state identification problems with an application to determination of thermal parameters
TL;DR: In this paper, the authors apply the approximation error approach to the determination of distributed thermal parameters of tissue, where the tissue is heated with focused ultrasound and the temperature evolution is observed through magnetic resonance imaging.
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Quantitative photoacoustic tomography using illuminations from a single direction.
TL;DR: The results show that the spatially modulated illumination patterns from a single direction could be used to provide multiple illuminations for quantitative photoacoustic tomography and can beused to distinguish absorption and scattering inclusions located near the surface of the target.
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State estimation in process tomography—Three‐dimensional impedance imaging of moving fluids
TL;DR: Three-dimensional impedance imaging of rapidly varying objects where the target is a moving fluid and the objective is to track the concentration distribution of a substance dissolved in the fluid is concentrated.
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Estimation of aquifer dimensions from passive seismic signals with approximate wave propagation models
Timo Lähivaara,Nicholas Dudley Ward,Tomi Huttunen,Janne Koponen,Jari P. Kaipio,Jari P. Kaipio +5 more
TL;DR: In this paper, a Bayesian approximation error approach is used to estimate the aquifer depth and water table using a highly approximate elastic model also for aquifer also for the underground.
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Groundwater responses to the recent Canterbury earthquakes: a comparison
TL;DR: In this article, the authors focus on responses in these coastal aquifers and quantify groundwater responses with a simple model which differentiates between immediate earthquake induced response (spike) and post-seismic change (offset).