| J12-2001 | hybrid , twostage approach to the | scope resolution | task . In the first stage , a |
| D09-1145 | proposed rule-based approach for | scope resolution | with two baseline methods . Previous |
| J12-2001 | In a second step , they tackle | scope resolution | , for which they propose two |
| J12-2005 | better assess the performance of a | scope resolution | component in isolation , we will |
| J12-2001 | structure of the syntax tree . The | scope resolution | task is different than in previous |
| J12-2001 | classification instances from them . The | scope resolution | for a certain cue was typically |
| C00-2103 | discussion of granularity effects on | scope resolution | . In section 7 the actual disambiguation |
| C00-2103 | emphasis was placed on an account of | scope resolution | among time adverbials . It has |
| J12-2001 | performance fluctuates . Full | scope resolution | of negation cues has been performed |
| J12-2001 | 6.2 Full Scope Resolution The | scope resolution | task consists of determining |
| J12-2001 | phases : cue identification and | scope resolution | , which are modeled as consecutive |
| J12-2001 | combined for cue detection and | scope resolution | . They assume a closed class |
| J12-2001 | the contribution of syntax to | scope resolution | . They apply a hybrid , twostage |
| J12-2001 | Daelemans ( 2008 ) approach the | scope resolution | task as a classification task |
| J12-2001 | been substantial research on the | scope resolution | task , there is still room for |
| J12-2005 | components ( Section 3.1 ) and the | scope resolution | components ( Section 3.2 ) . |
| J12-2001 | verb type , are noisy . 6.2 Full | Scope Resolution | The scope resolution task consists |
| J12-2005 | Section 6.1 ) , we show how the | scope resolution | task can be handled using an |
| H93-1025 | that produces a logical form with | scope resolution | for quantifiers and other " focalizers |
| J12-2001 | Daelemans ( 2009b ) present another | scope resolution | system that uses a different |
