| C96-1017 | single transducer is called the | lexicon transducer | . All valid stems , currently |
| W12-6213 | We then iteratively compose the | Lexicon transducer | with each rule transducer . This |
| W11-4409 | words . An example of a trivial | lexicon transducer | is described in Figure 2 . In |
| W11-4409 | needed . 2.2 Lexicon transducer The | lexicon transducer | L , maps monophone sequences |
| N03-1019 | . The third transducer is the | lexicon transducer | that maps the source word to |
| W10-2205 | sets of twolevel rules with a | lexicon transducer | . By introducing variant characters |
| W10-2205 | rules have been combined with the | lexicon transducer | , the variant characters may |
| W11-4409 | symbol tables as needed . 2.2 | Lexicon transducer | The lexicon transducer L , maps |
| W04-1607 | the rules are composed with the | lexicon transducer | . One such phonological rule |
| C96-1017 | suffixes are also present in the | lexicon transducer | , added in the normal concatenative |
| J01-1003 | compiled and composed with the | lexicon transducer | that is generated automatically |
| W10-2205 | lexicon so that the resulting | lexicon transducer | is equivalent to the result produced |
| D12-1070 | contextindependent phones . L is a | lexicon transducer | which maps context-independent |
| C04-1114 | The Baseline system uses IBM1 | lexicon transducers | and different types of phrase |
| P06-2061 | null-emitter , and fertility . The | lexicon transducer | is formed by one node and a number |
| W10-2205 | intersected and composed with the | lexicon transducer | which transforms base forms and |
| W12-6213 | intermediate exponential size , the | Lexicon transducer | must be composed with the first |
| W15-4807 | in many toolkits , as well as | lexicon transducers | constructed through essentially |
| W98-1007 | composed on top of the overgenerating | lexicon transducer | , only the legal strings are |
| W12-6213 | compose that transducer with the | Lexicon transducer | . The reason for this is that |
