Research on the Construction of Mobile Terminal Assisted Language Learning Model Based on Artificial Intelligence Technology
DOI: https://doi.org/10.62517/jike.202404120
Author(s)
Yiqiao Deng*, Chengchen Wu
Affiliation(s)
Jincheng College Nanjing University of Aeronautics and Astronautics, Nanjing, Jiangsu, China
Abstract
This paper aims to construct a mobile terminal-assisted language learning model based on artificial intelligence technology. It provides an overview of the development of language learning research and introduces the evolution from computer-assisted language learning to mobile-assisted language learning. Regarding the characteristics of artificial intelligence technology, this paper explores its learning ability, automation, simulation of human intelligence, multifunctionality, and efficiency. By using AI technologies natural, such as language processing, data-driven learning, intelligent tutoring systems, and chatbots, language learners can access personalized guidance and achieve more efficient learning outcomes. Mobile terminal-assisted language learning offers advantages such as flexibility, easy access to resources, individualized learning, simplified learning content, interactivity, and contextual learning. The significant findings of this study emphasize the advantages of mobile terminal-assisted language learning, including portability, access to authentic materials, interactivity, and collaborative learning. An outlook on the future development of personalized tutoring in language learning is also provided in this paper, which aims to assist the effectiveness and efficiency of language learning.
Keywords
Artificial intelligence; Mobile terminal-assisted; Language learning; Model designing
References
[1] Alinei, M. (2006). Darwinism, traditional linguistics and the new Palaeolithic Continuity Theory of language evolution. In: Gontier, N., Van Bendegem, J.P., Aerts, D. (eds) Evolutionary Epistemology, Language and Culture. Theory and Decision Library A:, vol 39. Springer, Dordrecht. https://doi.org/10.1007/1-4020-3395-8_7
[2] Mehawesh, Mohammad. (2014). Stages in Language Acquisition: A Case Study. English Language and Literature Studies. 4. 10.5539/ells.v4n4p16.
[3] Mpofu, P. . (2013). HIV/AIDS awareness advertising: representation of the linguistic and socio-cultural repertoires on ZBC/ TV.
[4] CHEN Xiaobin. Research on mobile assisted language learning J Journal of South China University of Technology (Social Sciences Edition), 2013,15 (1): 114-119
[5] Li, F., Fan, S. & Wang, Y. Mobile-assisted language learning in Chinese higher education context: a systematic review from the perspective of the situated learning theory. Educ Inf Technol 27, 9665–9688 (2022). https://doi.org/10.1007/s10639-022-11025-4
[6] Chen, Xieling, Di Zou, Haoran Xie, and Gary Cheng. “Twenty Years of Personalized Language Learning: Topic Modeling and Knowledge Mapping.” Educational Technology & Society 24, no. 1 (2021): 205–22. https://www.jstor.org/stable/26977868.
[7] Thakur, K., Pathan, AS.K., Ismat, S. (2023). Artificial Intelligence Technology. In: Emerging ICT Technologies and Cybersecurity. Springer, Cham. https://doi.org/10.1007/978-3-031-27765-8_2, 45-77.
[8] Lee, S.-M. (2023). The effectiveness of machine translation in foreign language education: A systematic review and meta-analysis. Computer Assisted Language Learning, 36(1–2), 103–125. https://doi.org/10.1080/09588221.2021.1901745Search in Google Scholar.
[9] Esit, Ö. (2011). Your verbal zone: An intelligent computer-assisted language learning program in support of Turkish learners’ vocabulary learning. Computer Assisted Language Learning, 24(3), 211–232. https://doi.org/10.1080/09588221.2010.538702Search in Google Scholar
[10] Amaral, L., Meurers, D., & Ziai, R. (2011). Analyzing learner language: Towards a flexible natural language processing architecture for intelligent language tutors. Computer Assisted Language Learning, 24(1), 1–16. https://doi.org/10.1080/09588221.2010.520674Search in Google Scholar.
[11] Chinkina, M., Ruiz, S., & Meurers, D. (2020). Crowdsourcing evaluation of the quality of automatically generated questions for supporting computer-assisted language teaching. ReCALL, 32(2), 145–161. https://doi.org/10.1017/S0958344019000193Search in Google Scholar.
[12] Pérez-Paredes, P. (2022). A systematic review of the uses and spread of corpora and data-driven learning in CALL research during 2011–2015. Computer Assisted Language Learning, 35(1–2), 36–61. https://doi.org/10.1080/09588221.2019.1667832Search in Google Scholar.
[13] Tono, Y., Satake, Y., & Miura, A. (2014). The effects of using corpora on revision tasks in L2 writing with coded error feedback. ReCALL, 26(2), 147–162. https://doi.org/10.1017/S095834401400007XSearch in Google Scholar.
[14] Crosthwaite, P., Luciana, & Wijaya, D. (2021). Exploring language teachers’ lesson planning for corpus-based language teaching: A focus on developing tpack for corpora and DDL. Computer Assisted Language Learning. Advance online publication. 1392-1420, https://doi.org/10.1080/09588221.2021.1995001Search in Google Scholar.
[15] Hadley, G., & Charles, M. (2017). Enhancing extensive reading with data-driven learning. Language, Learning and Technology, 21(3), 131–152. https://doi.org/10125/44624Search in Google Scholar.
[16] Choi, I.-C. (2016). Efficacy of an ICALL tutoring system and process-oriented corrective feedback. Computer Assisted Language Learning, 29(2), 334–364. https://doi.org/10.1080/09588221.2014.960941Search in Google Scholar.
[17] Wang Jiaqi. Innovative research on visual transmission design in UI interface from the perspective of household experience J Art Science and Technology, 2024, 37 (1): 184-186.
[18] LEI Jing. Research on Mobile UI Design for Internetworking Software Products J Science and Technology Innovation, 2024 (5): 86-89.
[19] ZHANG Meizhen. Analysis of the application of color in UI design J Design, 2014, 27 (7): 97-98.
[20] CHEN Zhaoni. User interface design using cognitive psychology J Packaging Engineering, 2017,38 (16): 30-33.
[21] Jiang Xiujuan, Guo Hanying, Wu Jingling. The Feasibility Study of Handset Software "English Fun Dubbing" in English Teaching in Higher Vocational College J English Language Square (Academic Research), 2016 (5): 103-104.
[22] Zhang Jun. The conception and creation of UI user interface design course J Art and Design (Theoretical Edition), 2011 (7X): 99-101.
[23] CHEN Yuehong, WANG Youyao. Analysis of visual psychological cognition and emotional design in UI design J Art Design Research, 2021 (2): 74-79.
[24] Wan Jian, Sun Bin. Interface model that supports automatic generation of user interface J Computer Engineering and applications, 2003, 39 (18): 114-118.
