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\documentclass[xcolor=dvipsnames]{beamer}
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\setbeamerfont{page number in head/foot}{size=\large}
\setbeamertemplate{footline}[frame number]
\title[A new mathematical model for verifying the Navier-Stokes compatibility of 4D flow MRI data]{ A new mathematical model for verifying the Navier-Stokes compatibility of 4D flow MRI data}
%\author[Jeremías Garay Labra]
%{Jeremías Garay Labra}
\institute[University of Groningen]
{
Bernoulli Institute\\
Faculty of Sciences and Engineering\\
University of Groningen\\[0.5cm]
%\includegraphics[height=1.5cm]{Imagenes/escudoU2014.pdf}
% \includegraphics[height=1cm]{Imagenes/fcfm.png} \\[0.5cm]
\texttt{Jeremías Garay Labra \\ \ j.e.garay.labra@rug.nl}
}
\date{\today}
\begin{document}
\frame{\titlepage}
\begin{frame}
\frametitle{Index}
\tableofcontents
\end{frame}
\section{4D flow MRI}
\begin{frame}
\frametitle{4D flow MRI}
\begin{columns}[c]
\column{.55\textwidth} % Left column and width
\footnotesize
4D flow MRI has been shown potential in the assesment of blood flow dynamics in heart and large arteries, allowing wide variety of options for visualization and quantification.
\column{.5\textwidth} % Right column and width
\end{columns}
\end{frame}
\begin{frame}
\frametitle{4D flow MRI}
\footnotesize
Main limitation for its clinical applicability is the long scan times involved. Therefore, multiple strategies emerged in order to make acquisition faster>
\begin{itemize}
\item Navigator gating
\item modest spatial resolutions $2.5 \times 2.5 \times 2.5 \ mm3$
\item partial data coverage
\end{itemize}
Typical quality estimators are> SNR, VNR, peak flows/velocities, mass conservation (zero divergence
We want to introduce a novel measure for quantify the quality of the 4D flow measurements, using the conservation of momentum of the flow.
\end{frame}
\section{The corrector field}
\begin{frame}
\frametitle{The corrector field}
\begin{columns}[c]
\column{.6\textwidth} % Left column and width
\footnotesize
\onslide<1-> We assume a perfect velocity \begin{eqnarray*}
\rho \frac{\partial \vec{u}}{\partial t} + \rho \big ( \vec{u} \cdot \nabla \big) \vec{u} - \mu \Delta \vec{u} + \nabla p = 0 \quad \text{in} \quad \Omega \label{eq:NSmom}
\end{eqnarray*}
\onslide<2-> And a corrector field which
\begin{align}
\vec{u} & \approx \vec{u}_{meas} + \vec{w} \quad \text{in} \quad \Omega \label{eq:corrector} \\
\nabla \cdot \vec w & = 0 \quad \text{in} \quad \Omega \label{eq:correctorDiv} \\
\vec w & = \vec 0 \quad \text{on} \quad \partial \Omega \label{eq:correctorBC}
\end{align}
\onslide<3-> asd
\begin{itemize}
\footnotesize
\item[]<4-> $u = u_{in} \quad \text{in} \quad \Gamma_{inlet}$
\end{itemize}
\column{.5\textwidth} % Right column and width
\begin{figure}[!hbtp]
\onslide<1->
\begin{center}
\includegraphics[height=\textwidth]{images/aorta_blender.png}
\caption{Aortic mesh }
\end{center}
\end{figure}
\end{columns}
\end{frame}
\begin{frame}
\frametitle{The corrector field}
\footnotesize
To study the corrector in several scenarios> synthetic data, experimental phantom and healthy volunteers.
\end{frame}
\begin{frame}
\frametitle{The corrector field}
\footnotesize
different data treatments> aliasing and noise. Undersampling
\end{frame}
\section{Results}
\begin{frame}
\frametitle{Results}
\footnotesize
results for the synthetic data. Comparison againts a perfect correction case with du.
\end{frame}
\begin{frame}
\frametitle{Results}
\footnotesize
results for experimental phantom
\end{frame}
\begin{frame}
\frametitle{Results}
\footnotesize
results in healthy volunteers
\end{frame}
\section{Conclusions}
\begin{frame}
\frametitle{Results}
\footnotesize
potential of the new quality parameter> analize real data. use the specificity for label zones with strong disagreedment. Use the field for create new inverse problems which can be used for further accelerations
\end{frame}
\begin{frame}
\begin{center}
\huge{Thank you for your time!}
\end{center}
\end{frame}
%\includegraphics<1>[height=4.5cm]{images/pat1.png}
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\end{document}