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A Combination of Automata and Grammars
Kučera, Jiří ; Horáček, Petr (oponent) ; Meduna, Alexandr (vedoucí práce)
In this work, a new systems of formal models, called state-synchronized automata systems of degree n , were introduced and studied. The computation in presented automata systems is controlled by words from finite control language, where every word from control language is a sequence of states. Furthermore were studied the computational power of these systems. The practical use of introduced systems was demonstrated on example of natural language translation and on example of parallel compiling.
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Synchronous Formal Systems Based on Grammars and Transducers
Horáček, Petr ; Janoušek, Jan (oponent) ; Yamamura,, Akihito (oponent) ; Meduna, Alexandr (vedoucí práce)
This doctoral thesis studies synchronous formal systems based on grammars and transducers, investigating both theoretical properties and practical application perspectives. It introduces new concepts and definitions building upon the well-known principles of regulated rewriting and synchronization. An alternate approach to synchronization of context-free grammars is proposed, based on linked rules. This principle is extended to regulated grammars such as scattered context grammars and matrix grammars. Moreover, based on a similar principle, a new type of transducer called the rule-restricted transducer is introduced as a system consisting of a finite automaton and context-free grammar. New theoretical results regarding the generative and accepting power are presented. The last part of the thesis studies linguistically-oriented application perspectives, focusing on natural language translation. The main advantages of the new models are discussed and compared, using select case studies from Czech, English, and Japanese to illustrate.
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Synchronous Formal Systems Based on Grammars and Transducers
Horáček, Petr ; Janoušek, Jan (oponent) ; Yamamura,, Akihito (oponent) ; Meduna, Alexandr (vedoucí práce)
This doctoral thesis studies synchronous formal systems based on grammars and transducers, investigating both theoretical properties and practical application perspectives. It introduces new concepts and definitions building upon the well-known principles of regulated rewriting and synchronization. An alternate approach to synchronization of context-free grammars is proposed, based on linked rules. This principle is extended to regulated grammars such as scattered context grammars and matrix grammars. Moreover, based on a similar principle, a new type of transducer called the rule-restricted transducer is introduced as a system consisting of a finite automaton and context-free grammar. New theoretical results regarding the generative and accepting power are presented. The last part of the thesis studies linguistically-oriented application perspectives, focusing on natural language translation. The main advantages of the new models are discussed and compared, using select case studies from Czech, English, and Japanese to illustrate.
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A Combination of Automata and Grammars
Kučera, Jiří ; Horáček, Petr (oponent) ; Meduna, Alexandr (vedoucí práce)
In this work, a new systems of formal models, called state-synchronized automata systems of degree n , were introduced and studied. The computation in presented automata systems is controlled by words from finite control language, where every word from control language is a sequence of states. Furthermore were studied the computational power of these systems. The practical use of introduced systems was demonstrated on example of natural language translation and on example of parallel compiling.
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