| P03-1065 | require the fine-tuning of the | PV Identification | Module . First , the macros need |
| P03-1065 | architecture that contains the | PV Identification | Module based on the PV Expert |
| P03-1065 | as nouns by POS were missed in | PV identification | . There are two problems that |
| P03-1065 | conditions for constraint-checking in | PV identification | . For example , to prevent spurious |
| P03-1065 | parsing form a proper basis for | PV identification | . First , the inserted NPs and |
| P03-1065 | as additional constraints for | PV identification | . A sample macro rule active_V_Pin |
| P03-1065 | State Automaton ( FSA ) in the | PV identification | task , we conducted the following |
| P03-1065 | NEs , so it will not block the | PV identification | in ( 3c ) . ( 3a ) She -LSB- |
| P03-1065 | to be discussed shortly ) , the | PV identification | problem is basically solved . |
| P03-1065 | for the subsequent parser . The | PV identification | method as described above resolves |
| P03-1065 | subsequent expert lexicons . The | PV Identification | Module is placed between the |
| P03-1065 | decoded by our deep parser after | PV identification | : she is being carefully ` looked |
| P03-1065 | project LinGO-ERG that handles | PV identification | and parsing together . LingGO-ERG |
| P03-1065 | a checklist of problems that a | PV identification | system should handle : ( i ) |
| P03-1065 | e.g. , look everywhere for ) in | PV identification | . Both the MUC-7 formal run corpus |
