Fractal analysis and computational linguistics : a framework for understanding language
This research explores the convergence of fractal information theory and fractal geometry within computational linguistics. It also examines the application of the NooJ tool for structural analysis. The study posits that fractal analysis in computational linguistics offers a framework understand lan...
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Universidad Nacional de Rosario
2026
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| Acceso en línea: | https://aprendoconnooj.unr.edu.ar/index.php/revista/article/view/42 |
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I15-R219-article-422026-03-12T15:18:32Z Fractal analysis and computational linguistics : a framework for understanding language Análisis fractal y lingüística computacional: un marco para comprender el lenguaje Bucciarelli, Ritamaría Terrone, Francesco Enriquez, Javier Julian análisis fractal lingüística computacional NooJ tecnología de estados finitos redes de transición recursivas fractal analysis computational linguistics NooJ finite-state technology recursive transition networks This research explores the convergence of fractal information theory and fractal geometry within computational linguistics. It also examines the application of the NooJ tool for structural analysis. The study posits that fractal analysis in computational linguistics offers a framework understand language as an intricate, self-similar, and dynamic system. Patterns recur at multiple scales, such as phrases within sentences and sentences within paragraphs. Fractal analysis uses methodologies to identify non-normal distributions and long-range dependencies textual data. NooJ leverages finite-state technology to parse large corpora and construct linguistic resources, such as lexicons and grammars. Although NooJ primarily functions as a finite-state machine, its ability to manage recursive graph structures, particularly recursive transition networks, makes it suitable for analyzing fractal structures El propósito de este artículo es explorar la convergencia entre la teoría de la información fractal y la geometría fractal en el ámbito de la lingüística computacional. De este modo, se pretende analizar la aplicación de la herramienta NooJ en el análisis estructural. Se propone el análisis fractal en lingüística computacional como una posible solución, ya que proporciona un marco de referencia para comprender el lenguaje como un sistema intrincado, autosimilar y dinámico, en el que los patrones se repiten a través de diversas escalas, por ejemplo, frases dentro de oraciones y oraciones dentro de párrafos. El análisis fractal suele emplear metodologías diseñadas para identificar distribuciones no normales y dependencias de largo alcance dentro de los datos textuales. NooJ es una herramienta que aprovecha la tecnología de estados finitos para analizar corpus extensos y, en consecuencia, construir recursos lingüísticos estructurados, incluyendo léxicos y gramáticas. Aunque NooJ opera principalmente como un autómata de estados finitos, su capacidad para gestionar estructuras de gráficos recursivas, en particular redes de transición recursivas, lo hace adecuado para el análisis de estructuras fractales. Universidad Nacional de Rosario 2026-03-12 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares application/pdf https://aprendoconnooj.unr.edu.ar/index.php/revista/article/view/42 10.35305/an.vi6.42 Aprendo con NooJ; Núm. 6 (2026) 2718-8574 eng https://aprendoconnooj.unr.edu.ar/index.php/revista/article/view/42/66 https://creativecommons.org/licenses/by-nc-sa/4.0 |
| institution |
Universidad Nacional de Rosario |
| institution_str |
I-15 |
| repository_str |
R-219 |
| container_title_str |
Aprendo con NooJ |
| language |
Inglés |
| format |
Artículo revista |
| topic |
análisis fractal lingüística computacional NooJ tecnología de estados finitos redes de transición recursivas fractal analysis computational linguistics NooJ finite-state technology recursive transition networks |
| spellingShingle |
análisis fractal lingüística computacional NooJ tecnología de estados finitos redes de transición recursivas fractal analysis computational linguistics NooJ finite-state technology recursive transition networks Bucciarelli, Ritamaría Terrone, Francesco Enriquez, Javier Julian Fractal analysis and computational linguistics : a framework for understanding language |
| topic_facet |
análisis fractal lingüística computacional NooJ tecnología de estados finitos redes de transición recursivas fractal analysis computational linguistics NooJ finite-state technology recursive transition networks |
| author |
Bucciarelli, Ritamaría Terrone, Francesco Enriquez, Javier Julian |
| author_facet |
Bucciarelli, Ritamaría Terrone, Francesco Enriquez, Javier Julian |
| author_sort |
Bucciarelli, Ritamaría |
| title |
Fractal analysis and computational linguistics : a framework for understanding language |
| title_short |
Fractal analysis and computational linguistics : a framework for understanding language |
| title_full |
Fractal analysis and computational linguistics : a framework for understanding language |
| title_fullStr |
Fractal analysis and computational linguistics : a framework for understanding language |
| title_full_unstemmed |
Fractal analysis and computational linguistics : a framework for understanding language |
| title_sort |
fractal analysis and computational linguistics : a framework for understanding language |
| description |
This research explores the convergence of fractal information theory and fractal geometry within computational linguistics. It also examines the application of the NooJ tool for structural analysis. The study posits that fractal analysis in computational linguistics offers a framework understand language as an intricate, self-similar, and dynamic system. Patterns recur at multiple scales, such as phrases within sentences and sentences within paragraphs. Fractal analysis uses methodologies to identify non-normal distributions and long-range dependencies textual data. NooJ leverages finite-state technology to parse large corpora and construct linguistic resources, such as lexicons and grammars. Although NooJ primarily functions as a finite-state machine, its ability to manage recursive graph structures, particularly recursive transition networks, makes it suitable for analyzing fractal structures |
| publisher |
Universidad Nacional de Rosario |
| publishDate |
2026 |
| url |
https://aprendoconnooj.unr.edu.ar/index.php/revista/article/view/42 |
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AT bucciarelliritamaria fractalanalysisandcomputationallinguisticsaframeworkforunderstandinglanguage AT terronefrancesco fractalanalysisandcomputationallinguisticsaframeworkforunderstandinglanguage AT enriquezjavierjulian fractalanalysisandcomputationallinguisticsaframeworkforunderstandinglanguage AT bucciarelliritamaria analisisfractalylinguisticacomputacionalunmarcoparacomprenderellenguaje AT terronefrancesco analisisfractalylinguisticacomputacionalunmarcoparacomprenderellenguaje AT enriquezjavierjulian analisisfractalylinguisticacomputacionalunmarcoparacomprenderellenguaje |
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2026-04-04T05:25:01Z |
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2026-04-04T05:25:01Z |
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