tech,11-1-P05-1048,bq subject of much recent debate : do <term> word sense disambigation models </term> help <term> statistical machine translation
tech,16-1-P05-1048,bq sense disambigation models </term> help <term> statistical machine translation </term><term> quality </term> ? We present
measure(ment),19-1-P05-1048,bq statistical machine translation </term><term> quality </term> ? We present empirical results casting
tech,3-3-P05-1048,bq assumption . Using a state-of-the-art <term> Chinese word sense disambiguation model </term> to choose <term> translation candidates
other,10-3-P05-1048,bq disambiguation model </term> to choose <term> translation candidates </term> for a typical <term> IBM statistical
tool,15-3-P05-1048,bq translation candidates </term> for a typical <term> IBM statistical MT system </term> , we find that <term> word sense disambiguation
tech,23-3-P05-1048,bq statistical MT system </term> , we find that <term> word sense disambiguation </term> does not yield significantly better
measure(ment),31-3-P05-1048,bq does not yield significantly better <term> translation quality </term> than the <term> statistical machine
tech,35-3-P05-1048,bq translation quality </term> than the <term> statistical machine translation system </term> alone . <term> Error analysis </term>
tech,0-4-P05-1048,bq machine translation system </term> alone . <term> Error analysis </term> suggests several key factors behind
other,16-4-P05-1048,bq including inherent limitations of current <term> statistical MT architectures </term> . <term> Syntax-based statistical machine
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