Authors: Stephen Akuma, Timothy Ndera

Abstract:

Information seekers get “lost in hyperspace” due to the voluminous documents updated daily on the internet. Adaptive Hypermedia Systems (AHS) are used to direct learners to their target goals. One of the most common AHS designed to help information seekers to overcome the problem of information overload is the Adaptive Education Hypermedia System (AEHS). However, this paper focuses on AEHS that adopts the learning preference of high school students and deliver learning content according to this preference throughout their learning experience. The research developed a prototype system for predicting students’ learning preference from the Visual, Aural, Read-Write and Kinesthetic (VARK) learning style model and adopting the learning content suitable to their preference. The predicting strength of several classifiers was compared and we found Support Vector Machine (SVM) to be more accurate in predicting learning style based on users’ preferences.

Keywords: Hypermedia, adaptive education, learning style, lesson content, user profile, prediction, feedback, adaptive hypermedia, learning style.

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References:

[1] K. Thaker et al, "Recommending remedial readings using student’s knowledge state," 13th International Conference on Educational Data Mining, pp. 233-244, 2020.
[2] M. Boussakuk et al, "A fully individualized adaptive and intelligent educational hypermedia system: Details of cleveruniversity," Int. J. Emerg. Trends Eng. Res., vol. 8, (5), pp. 1497-1502, 2020.
[3] P. Brusilovsky et al, "Open Social Student Modeling for Personalized Learning," IEEE Trans. Emerg. Top. Comput., vol. 4, (3), pp. 450-461, 2016.
[4] P. Brusilovsky, "Adaptive educational systems on the world-wide-web: A review of available technologies," in In: Proceedings of Workshop “www.Base & Tutoring”, Fourth International Conference in Intelligent Tutoring Systems, San Antonio, TX, 1998, .
[5] A. Elmabaredy, E. Elkholy and A. -. Tolba, "Web-based adaptive presentation techniques to enhance learning outcomes in higher education," Res. Pract. Technol. Enhanc. Learn., vol. 15, (1), 2020.
[6] M. Tmimi et al, "A proposed conception of the domain model for adaptive hypermedia," Int. J. Adv. Trends Comput. Sci. Eng., vol. 9, (3), pp. 3261-3269, 2020.
[7] U. C. Apoki, H. K. M. Al-Chalabi and G. C. Crisan, "From Digital Learning Resources to Adaptive Learning Objects: An Overview," Commun. Comput. Info. Sci., vol. 1126 CCIS, pp. 18-32, 2020.
[8] E. Knutov, P. De Bra and M. Pechenizkiy, "AH 12 years later: a comprehensive survey of adaptive hypermedia methods and techniques," New Review of Hypermedia and Multimedia, vol. 15(1), pp. 5-38, 2009.
[9] F. Baig, "Quality assessment of COFALE: An authoring tool for Adaptive Educational Hypermedia Systems," In Journal of Quality and Technology Management, pp. 85-108, 2014.
[10] S. Murugesan and A. Ginige, "Web engineering: Introduction and perspectives," in Software Engineering for Modern Web Applications: Methodologies and TechnologiesAnonymous 2008, pp. 1-24.
[11] W. Lestari, D. Nurjanah and N. Selviandro, "Adaptive presentation based on learning style and working memory capacity in adaptive learning system," in CSEDU 2017 - Proceedings of the 9th International Conference on Computer Supported Education, 2017, pp. 363-370.
[12] J. Barria-Pineda et al, "Personalized remedial recommendations for SQL programming practice system," in UMAP 2020 Adjunct - Adjunct Publication of the 28th ACM Conference on User Modeling, Adaptation and Personalization, 2020, pp. 135-142.
[13] S. Somyürek, P. Brusilovsky and J. Guerra, "Supporting knowledge monitoring ability: open learner modeling vs. open social learner modeling," Res. Pract. Technol. Enhanc. Learn., vol. 15, (1), 2020.
[14] C. Mulwa et al, "Adaptive educational hypermedia systems in technology enhanced learning: A literature review," in SIGITE'10 - Proceedings of the 2010 ACM Conference on Information Technology Education, 2010, pp. 73-84.
[15] E. O'Donnell et al, "A review of personalised e-learning: Towards supporting learner diversity," Int. J. Distance Educ. Technol., vol. 13, (1), pp. 22-47, 2015.
[16] X. Tsortanidou, C. Karagiannidis and A. Koumpis, "Adaptive educational hypermedia systems based on learning styles: The case of adaptation rules," Int. J. Emerg. Technol. Learn., vol. 12, (5), pp. 150-168, 2017.
[17] P. Brusilovsky, "Adaptive educational hypermedia: From generation to generation," Proceedings of 4th Hellenic Conference on Information and Communication Technologies in Education, pp. 19-33, 2004.
[18] P. Brusilovsky, "Adaptive navigation support in educational hypermedia: The role of student knowledge level and the case for meta-adaptation," Br J Educ Technol, vol. 34, (4), pp. 487-497, 2003.
[19] D. Turnbull, R. Chugh and J. Luck, "Learning management systems: a review of the research methodology literature in Australia and China," Int. J. Res. Method Educ., 2020.
[20] S. Somyürek, "The new trends in adaptive educational hypermedia systems," Int. Rev. Res. Open Distance Learn., vol. 16, (1), pp. 221-241, 2015.
[21] M. Tmimi et al, "Intelligent model conception proposal for adaptive hypermedia systems," Intl. J. Adv. Comput. Sci. Appl., vol. 9, (8), pp. 200-205, 2018.
[22] S. Akuma and R. Iqbal, "Development of relevance feedback system using regression predictive model and tf-idf algorithm
[J," International Journal of Education and Management Engineering(IJEME, vol. 8, (4), pp. 31-49, 2018.
[23] I. -. Hsiao and P. Brusilovsky, "Guiding and motivating students through open social student modeling: Lessons learned," Teachers College Record, vol. 119, (3), 2017.
[24] S. K. Filippidis and I. A. Tsoukalas, "On the use of adaptive instructional images based on the sequential-global dimension of the Felder-Silverman learning style theory," Interact. Learn. Environ., vol. 17, (2), pp. 135-150, 2009.
[25] E. Brown, T. Fisher and T. Brailsford, "Real users, real results: Examining the limitations of learning styles within aeh," ACM SIGWEB Newsletter, 2006.
[26] S. Akuma et al, "Implicit predictive indicators: Mouse activity and dwell time," IFIP Advances in Information and Communication Technology, vol. 436, pp. 162-171, 2014.
[27] I. Jivet et al, "License to evaluate: Preparing learning analytics dashboards for educational practice," in ACM International Conference Proceeding Series, 2018, pp. 31-40.
[28] S. Chen, "A cognitive model for non-linear learning in hypermedia programmes," Br J Educ Technol, vol. 33, (4), pp. 449-460, 2002.
[29] A. Honigsfeld and R. Dunn, "High School Male and Female Learning-Style Similarities and Differences in Diverse Nations," The Journal of Educational Research, vol. 96(4), pp. 195-206, 2003.
[30] A. Duff, "Learning style of UK higher education students: Four studies of the reliability and replicability of the learning style questionnaire (LSQ)," Bristol Business School Teaching and Research Review, vol. 14(3), pp. 131-177, 2000.
[31] J. W. Keefe, "Student Learning Styles: Diagnosing and Prescribing Programs," Reston, Va. : National Association of Secondary School Principals, 1979.
[32] Kendra Cherry (2020) Overview of Vark Learning Styles. Available: www.verywellmind.com.
[33] V. Putnam and C. Conati, "Exploring the need for explainable artificial intelligence (XAI) in intelligent tutoring systems (ITS)," in CEUR Workshop Proceedings, 2019.
[34] S. Bull and J. Kay, "Open learner models," Advances in Intelligent Tutoring Systems, pp. 318-338, 2010.