Finite Approximations and Similarity of Languages

Author:

Rovan Branislav1,Varga András1

Affiliation:

1. Department of Computer Science, Faculty of Mathematics, Physics and Informatics, Comenius University in Bratislava, Mlynská dolina, 842 48 Bratislava, Slovak Republic

Abstract

A new framework to measure distances (similarity) between formal languages and between grammars based on distances between words is introduced. It is based on approximating languages by their finite subsets and using monotone sequences of such finite approximations to define an infinite language in the limit. Distances between finite languages are defined and extended to distances between monotone sequences of finite languages leading to distances between infinite languages. The framework captures several distances studied in the literature. Context-free grammars with energy are introduced to enable finite approximations emphasizing “syntactically important” parts of words. Grammars with energy are also used to extend distances between monotone sequences of finite languages to distances between context-free grammars. A basic toolkit for monotone sequences of finite languages and distances between languages resp. grammars is provided. As part of this toolkit a non-symmetric version of distances is defined, providing additional characterisation of distances in general. Additional properties of distances between grammars are derived by restricting the“energy use” of grammars with energy. Some methods of estimating the distances are presented to be used in cases where the distance is not computable or difficult to compute.

Funder

Slovak Scientific Grant Agency VEGA

Publisher

World Scientific Pub Co Pte Ltd

Subject

Computer Science (miscellaneous)

Reference13 articles.

1. Automata, Languages, and Programming;Chatterjee K.,2015

2. Input-Driven Pushdown Automata for Edit Distance Neighborhood

3. Implementation and Application of Automata;Han Y.-S.,2017

4. SOFSEM 2017: Theory and Practice of Computer Science;Han Y.-S.,2017

5. Implementation and Application of Automata;Han Y.-S.,2013

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