add roc infos

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lukas-heilgenbrunner 2024-04-18 22:54:59 +02:00
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commit fb8a50639f
3 changed files with 22 additions and 4 deletions

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\section{Experimental Results}
\subsection{Does Active-Learning benefit the learning process?}
\subsection{test}
With the test setup described in~\ref{sec:implementation} a test series was performed.
\begin{figure}
\centering
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\caption{Architecture convolutional neural network}
\end{figure}
\subsection{test2}
\begin{figure}
\centering
\includegraphics[width=\linewidth]{../rsc/AUC_normal_lowcer_2_10}
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\caption{Architecture convolutional neural network3}
\end{figure}
Test
\subsection{Is Dagster and Label-Studio a proper tooling to build an AL
Loop?}
\subsection{Does balancing the learning samples improve performance?}

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The basic idea is that the unlabeled data can significantly improve the model performance when used in combination with the labeled data.
\subsubsection{ROC and AUC}
A receiver operating characteristic curve can be used to measure the performance of a classifier of a binary classification task.
When using the accuracy as the performance metric it doesn't reveal much about the balance of the predictions.
There might be many true-positives and rarely any true-negatives and the accuracy is still good.
The ROC curve helps with this problem and visualizes the true-positives and false-positives on a line plot.
The more the curve ascents the upper-left or bottom-right corner the better the classifier gets.
\begin{figure}
\centering
\includegraphics[width=\linewidth]{../rsc/Roc_curve.svg}
\caption{Architecture convolutional neural network. Image by \href{https://cointelegraph.com/explained/what-are-convolutional-neural-networks}{SKY ENGINE AI}}
\label{fig:roc-example}
\end{figure}
Furthermore, the area under this curve is called AUR curve and a useful metric to measure the performance of a binary classifier.
\subsubsection{RESNet}
\subsubsection{CNN}
Convolutional neural networks are especially good model architectures for processing images, speech and audio signals.