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Invertible Neural Networks for Uncertainty Quantification in Photoacoustic Imaging
Multispectral photoacoustic imaging (PAI) is an emerging imaging modalit...
11/10/2020 ∙ by Jan-Hinrich Nölke, et al. ∙
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A 3D-1D coupled blood flow and oxygen transport model to generate microvascular networks
In this work, we introduce an algorithmic approach to generate microvasc...
01/20/2020 ∙ by Tobias Köppl, et al. ∙
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Vectorized Uncertainty Propagation and Input Probability Sensitivity Analysis
In this article we construct a theoretical and computational process for...
08/29/2019 ∙ by Kevin Vanslette, et al. ∙
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A global sensitivity analysis and reduced order models for hydraulically-fractured horizontal wells
We present a systematic global sensitivity analysis using the Sobol meth...
12/09/2018 ∙ by A. Rezaei, et al. ∙
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On-Orbit Operations Simulator for Workload Measurement during Telerobotic Training
Training for telerobotic systems often makes heavy use of simulated plat...
02/24/2020 ∙ by Daniel Freer, et al. ∙
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Uncertainty quantification of viscoelastic parameters in arterial hemodynamics with the a-FSI blood flow model
This work aims at identifying and quantifying uncertainties related to e...
07/03/2020 ∙ by Giulia Bertaglia, et al. ∙
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Global sensitivity analysis informed model reduction and selection applied to a Valsalva maneuver model
In this study, we develop a methodology for model reduction and selectio...
05/26/2020 ∙ by E. Benjamin Randall, et al. ∙
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Uncertainty propagation and sensitivity analysis: results from the Ocular Mathematical Virtual Simulator
02/01/2021 ∙ by Christophe Prud'Homme, et al. ∙
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We propose an uncertainty propagation study and a sensitivity analysis with the Ocular Mathematical Virtual Simulator, a computational and mathematical model that predicts the hemodynamics and biomechanics within the human eye. In this contribution, we focus on the effect of intraocular pressure, retrolaminar tissue pressure and systemic blood pressure on the ocular posterior tissue vasculature. The combination of a physically-based model with experiments-based stochastic input allows us to gain a better understanding of the physiological system, accounting both for the driving mechanisms and the data variability.
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