This work is licensed under the Creative Commons Attribution 4.0 International License.
Yuan, M., & Recker, M. (2015). Not all rubrics are equal: A review of rubrics for evaluating the quality of open educational resources. International Review of Research in Open and Distributed Learning, 16(5), 16-38.Search in Google Scholar
Schmidt, T., & Strasser, T. (2022). Artificial intelligence in foreign language learning and teaching: a CALL for intelligent practice. Anglistik: International Journal of English Studies, 33(1), 165-184.Search in Google Scholar
Sazu, M. H. (2022). Does big data drive innovation in E-commerce: A global perspective?. SEISENSE Business Review, 2(1), 55-66.Search in Google Scholar
Koraishi, O. (2023). Teaching English in the age of AI: Embracing ChatGPT to optimize EFL materials and assessment. Language Education and Technology, 3(1).Search in Google Scholar
Baas, M., Admiraal, W., & van den Berg, E. (2019). Teachers’ Adoption of Open Educational Resources in Higher Education. Journal of Interactive Media in Education, 2019(1).Search in Google Scholar
Qian, R., Sengan, S., & Juneja, S. (2022). English language teaching based on big data analytics in augmentative and alternative communication system. International Journal of Speech Technology, 25(2), 409-420.Search in Google Scholar
Shi, L. (2022). Application of big data language recognition technology and GPU parallel computing in English teaching visualization system. International journal of speech technology, 25(3), 667-677.Search in Google Scholar
Zhu, Q. (2023). Empowering language learning through IoT and big data: an innovative English translation approach. Soft Computing, 27(17), 12725-12740.Search in Google Scholar
Zhu, W. (2024). Exploration of Corpus Based ESP English Teaching Mode Reform under Big Data. Revista Ibérica de Sistemas e Tecnologias de Informação, (E67), 595-605.Search in Google Scholar
Li, J. (2023). EFL teaching based on big data analytics in mobile AAC system. International Journal of Information and Communication Technology, 22(3), 309-326.Search in Google Scholar
Guo, H., & Jiang, X. (2024). English teaching evaluation based on reinforcement learning in content centric data center network. Wireless Networks, 30(5), 4145-4155.Search in Google Scholar
Liu, Y., Zhang, L. J., & May, S. (2022). Dominance of Anglo-American cultural representations in university English textbooks in China: A corpus linguistics analysis. Language, Culture and Curriculum, 35(1), 83-101.Search in Google Scholar
Kostka, I., & Toncelli, R. (2023). Exploring applications of ChatGPT to English language teaching: Opportunities, challenges, and recommendations. Tesl-Ej, 27(3), n3.Search in Google Scholar
Bui, T. H. (2022). English teachers’ integration of digital technologies in the classroom. International Journal of Educational Research Open, 3, 100204.Search in Google Scholar
Li, P., & Lan, Y. J. (2022). Digital language learning (DLL): Insights from behavior, cognition, and the brain. Bilingualism: Language and Cognition, 25(3), 361-378.Search in Google Scholar
Baas, M., Van der Rijst, R., Huizinga, T., Van den Berg, E., & Admiraal, W. (2022). Would you use them? A qualitative study on teachers’ assessments of open educational resources in higher education. The Internet and Higher Education, 54, 100857.Search in Google Scholar
Yu, Z., Yu, L., Xu, Q., Xu, W., & Wu, P. (2022). Effects of mobile learning technologies and social media tools on student engagement and learning outcomes of English learning. Technology, Pedagogy and Education, 31(3), 381-398.Search in Google Scholar
Bayan Alabduallah,Mohammed Maray,Nuha Alruwais,Rana Alabdan, Abdulbasit A. Darem,Fouad Shoie Alallah... & Ayman Yafoz. (2024). Class imbalanced data handling with cyberattack classification using Hybrid Salp Swarm Algorithm with deep learning approach. Alexandria Engineering Journal654-663.Search in Google Scholar
Dan Dan Yang,Meng Mei,Yu Jun Zhu,Xin He,Yong Xu & Wei Wu. (2023). Coverage Optimization of WSNs Based on Enhanced Multi-Objective Salp Swarm Algorithm. Applied Sciences(20).Search in Google Scholar
Abdullah B. Nasser,Waheed Ali H.M. Ghanem,Abdul Malik H.Y. Saad,Antar Shaddad Hamed Abdul Qawy,Sanaa A.A. Ghaleb,Nayef Abdulwahab Mohammed Alduais... & Mohamed Ghetas. (2024). Depth linear discrimination-oriented feature selection method based on adaptive sine cosine algorithm for software defect prediction. Expert Systems With Applications124266-.Search in Google Scholar
