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-rwxr-xr-xreport/paper.md7
1 files changed, 5 insertions, 2 deletions
diff --git a/report/paper.md b/report/paper.md
index 0aa514a..89e260c 100755
--- a/report/paper.md
+++ b/report/paper.md
@@ -193,12 +193,13 @@ be defined as $k_1$: $R^*(g_i,k_1)$.
The distances obtained are then mixed, obtaining a final distance $d^*(p,g_i)$ that is used to obtain the
improved rank-list: $d^*(p,g_i)=(1-\lambda)d_J(p,g_i)+\lambda d(p,g_i)$.
+## Optimisation
The aim is to learn optimal values for $k_1,k_2$ and $\lambda$ in the training set that improve top1 identification accuracy.
This is done through a simple multi-direction search algorithm followed by exhaustive search to estimate
$k_{1_{opt}}$ and $k_{2_{opt}}$ for eleven values of $\lambda$ from zero (only Jaccard distance) to one (only original distance)
in steps of 0.1. The results obtained through this approach suggest: $k_{1_{opt}}=9, k_{2_{opt}}=3, 0.1\leq\lambda_{opt}\leq 0.3$.
-It is possible to verify that the optimization of $k_{1_{opt}}$, $k_{2_{opt}}$ and $\lambda$
+It is possible to verify that the optimisation of $k_{1_{opt}}$, $k_{2_{opt}}$ and $\lambda$
has been successful. Figures \ref{fig:pqvals} and \ref{fig:lambda} show that the optimal values obtained from
training are close to the ones for the local maximum of gallery and query.
@@ -220,7 +221,6 @@ training are close to the ones for the local maximum of gallery and query.
\end{center}
\end{figure}
-
## $k$-reciprocal Re-ranking Evaluation
Re-ranking achieves better results than the other baseline methods analyzed both as top $k$
@@ -252,6 +252,9 @@ The difference between the top $k$ accuracies of the two methods gets smaller as
\end{center}
\end{figure}
+The improved results due to $k$-reciprocal re-ranking can be explained by considering...re-ranking can be explained by considering...
+
+
# Conclusion
# References