"Syntaktische Analyse" . . "Syntaktische Analyse." . "Grammar for language and genes theoretical and empirical investigations" . . . . "Grammars for Language and Genes : Theoretical and Empirical Investigations" . . . . . . . . "Grammars for language and genes : theoretical and empirical investigations"@en . "Grammars for language and genes : theoretical and empirical investigations" . . "Elektronisches Buch" . . . . . . . . . . . "Grammars for language and genes theoretical and empirical investigations"@en . "Grammars for language and genes theoretical and empirical investigations" . . . . . . . . "Grammar for language and genes : theoretical and empirical investigations" . . "Grammars are gaining importance in natural language processing and computational biology as a means of encoding theories and structuring algorithms. But one serious obstacle to applications of grammars is that formal language theory traditionally classifies grammars according to their weak generative capacity (what sets of strings they generate) and tends to ignore strong generative capacity (what sets of structural descriptions they generate) even though the latter is more relevant to applications. This book develops and demonstrates a framework for carrying out rigorous comparisons of grammar formalisms in terms of their usefulness for applications, focusing on three areas of application: statistical parsing, natural language translation, and biological sequence analysis. These results should pave the way for theoretical research to pursue results that are more directed towards applications, and for practical research to explore the use of advanced grammar formalisms more easily."@en . . . . . . . . . . . "Grammars are gaining importance in natural language processing and computational biology as a means of encoding theories and structuring algorithms. But one serious obstacle to applications of grammars is that formal language theory traditionally classifies grammars according to their weak generative capacity (what sets of strings they generate) and tends to ignore strong generative capacity (what sets of structural descriptions they generate) even though the latter is more relevant to applications. This book develops and demonstrates a framework for carrying out rigorous comparisons of gramma."@en . . . . "Grammars for Language and Genes"@en . . . . . . . . "Electronic books" . "Electronic books"@en . "Grammars for Language and Genes Theoretical and Empirical Investigations" . . "Computational Biology/Bioinformatics" . . "Computational Biology/Bioinformatics." . . . "Sciences humaines." . . "Generative Kapazität" . . "Generative Kapazität." . "Bioinformatics." . . "Nucleotidsequenz" . . "Nucleotidsequenz." . "Translators (Computer programs)" . . "Natürliche Sprache" . . "Natürliche Sprache." . "Sequenzdaten" . . "Sequenzdaten." . "Linguistique informatique." . . "Computational Linguistics." . . "Maschinelle Übersetzung" . . "Maschinelle Übersetzung." . "Mathematical Logic and Formal Languages" . . "Mathematical Logic and Formal Languages." . "Computer science." . . "Computer Science." . "Aminosäurensequenz" . . "Aminosäurensequenz." . "Traitement automatique des langues naturelles." . . "Sciences sociales." . . "Formale Grammatik" . . "Formale Grammatik." . "COMPUTERS Natural Language Processing." . . "Language Translation and Linguistics" . . "Language Translation and Linguistics." .