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Fix typos

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Tian Cheng (Riccardo) Xia
2025-02-04 20:16:16 +01:00
parent b3e39c50e5
commit 36b2506a84
2 changed files with 2 additions and 2 deletions
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src/year2/machine-learning-for-computer-vision/sections/_object_detection.tex
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@ -84,7 +84,7 @@
\indenttbox \indenttbox
\begin{remark} \begin{remark}
Recall is monotonically decreasing, while precision can both decrease and increase. Recall is monotonically increasing, while precision can both decrease and increase.
\end{remark} \end{remark}
\end{example} \end{example}

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src/year2/machine-learning-for-computer-vision/sections/_segmentation.tex
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@ -53,7 +53,7 @@
\end{figure} \end{figure}
\item[Depth comparison features] \marginnote{Depth comparison features} \item[Depth comparison features] \marginnote{Depth comparison features}
Given a depth image $D$ and the offsets $\theta = (\Delta p, \Delta n)$, each pixel $x$ of $D$ produces a feature as follows: Given a depth image $D$ and the offsets $\theta = (\Delta p, \Delta n)$, each pixel $x$ of $D$ produces a set features of form:
\[ f(x; D, (\Delta p, \Delta n)) = D\left[ x + \frac{\Delta p}{D[x]} \right] - D\left[ x + \frac{\Delta n}{D[x]} \right] \] \[ f(x; D, (\Delta p, \Delta n)) = D\left[ x + \frac{\Delta p}{D[x]} \right] - D\left[ x + \frac{\Delta n}{D[x]} \right] \]
In other words, each $x$ is described by the difference in depth between two points offset from $x$. The depth at background pixels is a large positive number. In other words, each $x$ is described by the difference in depth between two points offset from $x$. The depth at background pixels is a large positive number.