The use of Arabic linguistic resources to develop learning applications

Abstract: <span>This paper aims at explaining how Arabic linguistic resources are generated and exploited to enhance Arabic acquisition. We have adopted the root and pattern approach to generate our resources using the linguistic NooJ platform. This work has been carried out in two phases: generating the linguistic resources and developing the application that exploits the pre-built resources. First, we have generated three different resources: comprehensive verbs and masdar resources linked to each other. A nouns… Show more

“…These tools can discern patterns and meanings in a manner like that of human comprehension [30]. Among the most notable NLP tools are Wordify [8], Mlphon [31], morphological analyzer [32], Runyakitara tool [33], LexTutor [34], [35], Coh-Metric [36], [37] linguistic queries and word count (LIWC) [38], UAM corpus tool [39], [40], SketchEngine (SkE) [41], Wmatrix [37] MultiAzterTest [42], sublanguage corpus analysis toolkit (SubCAT) [43], EnvText [44], InLang [45], Berri corpus manager [46], UCREL semantic analysis system (USAS) [47], PyMongo (Mongo DB, Python technology, Flask) [46], LancsBox 5.1.2 [48], LancsBox 4.5 [49], LancsBox [50], NooJ platform [51] and Bi-LSTM [52].…”

“…All tools, including concordance, NLP, and technology tools, were used by the researcher based on the articles found. Some studies have developed new corpus tools based on the current need to solve problems in a particular language such as Wordify [8], Mlphon [31], Runyakitara tool [33], PyMongo (Mongo DB, Python technology, Flask) [46], InLang [45], MultiAzterTest [42], PyLDAvis [58], and NooJ [51]. The types and functions of these computational tools are summarized in a mind map as shown in Figure 2.…”

Exploring corpus linguistics via computational tool analysis: key finding review

“…These tools can discern patterns and meanings in a manner like that of human comprehension [30]. Among the most notable NLP tools are Wordify [8], Mlphon [31], morphological analyzer [32], Runyakitara tool [33], LexTutor [34], [35], Coh-Metric [36], [37] linguistic queries and word count (LIWC) [38], UAM corpus tool [39], [40], SketchEngine (SkE) [41], Wmatrix [37] MultiAzterTest [42], sublanguage corpus analysis toolkit (SubCAT) [43], EnvText [44], InLang [45], Berri corpus manager [46], UCREL semantic analysis system (USAS) [47], PyMongo (Mongo DB, Python technology, Flask) [46], LancsBox 5.1.2 [48], LancsBox 4.5 [49], LancsBox [50], NooJ platform [51] and Bi-LSTM [52].…”

“…All tools, including concordance, NLP, and technology tools, were used by the researcher based on the articles found. Some studies have developed new corpus tools based on the current need to solve problems in a particular language such as Wordify [8], Mlphon [31], Runyakitara tool [33], PyMongo (Mongo DB, Python technology, Flask) [46], InLang [45], MultiAzterTest [42], PyLDAvis [58], and NooJ [51]. The types and functions of these computational tools are summarized in a mind map as shown in Figure 2.…”

Exploring corpus linguistics via computational tool analysis: key finding review