summaryrefslogtreecommitdiff
path: root/report
diff options
context:
space:
mode:
authordesaicwtf <desaicwtf@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-08-17 11:09:18 +0000
committerdesaicwtf <desaicwtf@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-08-17 11:09:18 +0000
commitf804499b85bee7ac5c37304412f8a3ae3da8f1e1 (patch)
treee06500c22b3560b7ba1c5054ca8c9d983cefa74b /report
parent2b8a391ccd64fddaa990a41c66c30d88b2331ad3 (diff)
git-svn-id: https://ws10smt.googlecode.com/svn/trunk@571 ec762483-ff6d-05da-a07a-a48fb63a330f
Diffstat (limited to 'report')
-rw-r--r--report/pr-clustering/posterior.tex30
1 files changed, 24 insertions, 6 deletions
diff --git a/report/pr-clustering/posterior.tex b/report/pr-clustering/posterior.tex
index ebb05211..c4076cc3 100644
--- a/report/pr-clustering/posterior.tex
+++ b/report/pr-clustering/posterior.tex
@@ -52,7 +52,7 @@ P(z|\textbf{p},\textbf{c})=\frac{P(z,\textbf{c}|\textbf{p})}
\]
With the mechanisms to compute the posterior probabilities, we can
apply EM to learn all the probabilities.
-\section{Sparsity Constraints}
+\section{Sparsity Constraints}\label{sec:pr-sparse}
A common linguistic intuition we have about the phrase
clustering problem is that a phrase should be put into very
few categories, e.g. a verb phrase is unlikely to be used as
@@ -115,8 +115,11 @@ The objective we want to optimize becomes:
\]
\[
\text{ s.t. }\forall \textbf{p},z,
-E_q[\phi_{\textbf{p}iz}]\leq c_{\textbf{p}z}.
+E_q[\phi_{\textbf{p}iz}]\leq c_{\textbf{p}z},
\]
+where $\sigma$ is a constant to control
+how strongly the soft constraint should
+be enforced.
Using Lagrange Multipliers, this objective can
be optimized in its dual form,
for each phrase $\textbf{p}$:
@@ -137,7 +140,7 @@ q_i(z)\propto P_{\theta}(z|\textbf{p},\textbf{c}_i)
\exp(\lambda_{\textbf{p}iz}).
\]
M-step can be performed as usual.
-\section{Agreement Models}
+\section{Agreement Models}\label{sec:pr-agree}
Another type of constraint we used is agreement between
different models. We came up with a similar generative
model in the reverse direction to agree with
@@ -248,9 +251,9 @@ phrases that don't correspond any constituents.
hiero+POS & & \\
SAMT & & \\
EM & & \\
- pr100 & & \\
- agree-language & & \\
- agree direction & &\\
+ PR $\sigma=100$ & & \\
+ agree language & & \\
+ agree direction & &\\
non-parametric & & \\
\hline
\end{tabular}
@@ -263,3 +266,18 @@ phrases that don't correspond any constituents.
}
\label{tab:results}
\end{table}
+
+In Table \ref{tab:results}, hiero is hierachical phrase-based
+model with 1 category in all of its SCFG rules. Hiero+POS
+is hiero with all words labelled with their POS tags.
+SAMT is a syntax based system with a supervised
+parser trained on Treebank. EM is the first model mentioned
+in the beginning of this chapter. PR $\sigma=100$ is
+posterior regularization model with sparsity constraint
+explained in Section \ref{sec:pr-sparse}.
+$\sigma$ is the constant controls strongness of the constraint.
+Agree language and agree direction are models with agreement
+constraints mentioned in Section \ref{sec:pr-agree}. Non-parametric
+is non-parametric model introduced in the previous chapter.
+
+\section{Conclusion}