Authors: Konstantinos Sofianos, Michail Stefanidakis

Abstract:

Nowadays, despite the great advances in technology, most educational frameworks lack a strong educational design basis. E-learning has become prevalent, but it faces various challenges such as student isolation and lack of quality in the learning process. An intelligent learning system provides a student with educational material according to their learning background and learning preferences. It records full information about the student, such as demographic information, learning styles, and academic performance. This information allows the system to be fully adapted to the student’s needs. In this paper, we propose a framework and an ontology for music education, consisting of the learner model and all elements of the learning process (learning objects, teaching methods, learning activities, assessment). This framework can be integrated into an intelligent learning system and used for music education in schools for the development of professional skills and beyond.

Keywords: Intelligent learning systems, e-learning, music education, ontology, semantic web.

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 374

References:

[1] Kalogiannakis, M. (2010) Training with ICT for ICT from the trainer's perspective. Education and Information Technologies, vol. 15, no. 1, pp. 3-17.
[2] M. M. Alhawiti, and Y. Abdelhamid. a personalized e-learning framework. Journal of education and e-learning research, 4(1): 15-21. 2017.
[3] Lopes, A. P., (2014) Learning management systems in higher education, Proceedings of EDULEARN14 Conference 7th-9th July 2014, Barcelona, Spain.
[4] Aeiad, E., Meziane, F. (2019). An adaptable and personalized E-learning system applied to computer science Programmes design.Education and Information Technologies 24, 1485-1509
[5] Azevedo, R., & Aleven, V. A.W. M. M. (2013). International handbook of metacognition and learning technologies (vol. 26). Springer.
[6] Gu, Y.-F. (2013). Research on personalized recommendation system in e-learning based on semantic web. In Paper presented at the proceedings of the 3rd international conference on multimedia technology (ICMT 2013).
[7] Hwang G.J. (2014). Definition, framework and research issues of smart learning environments - A context-aware ubiquitous learning perspective. Smart Learning Environments 1(1), 1-14
[8] Zhu Z., Yu M.H., Riezebos P. (2016) A research framework of smart education, Smart Learning Environments 3, 1-17.
[9] Agbo F. J. , Oyelere S. S. , Suhonen J. , Tukiainen M.(2019). Smart learning environment for computing education: readiness for implementation in Nigeria. EdMedia + Innovative Learning, pp.1382-1391. Amsterdam, Association for the Advancement of Computing in Education.
[10] Kassab, M., DeFranco, J., & Voas, J. (2018). Smarter education. IT Professional, 20(5), 20-24.
[11] Cheng, G., Du, Q., & Ma, H. (2008). The design and implementation of ontology and rules based knowledge base for transportation. In Paper presented at the computer science and software engineering, 2008 international conference on.
[12] Saleena, B., & Srivatsa, S. K. (2015). Using concept similarity in cross ontology for adaptive e-Learning systems. Journal of King Saud University-Computer and Information Sciences, 27(1), 1e12.
[13] Chimalakonda S. and Nori K. V. (2020). An ontology based modeling framework for design of educational technologies. Smart Learning Environments, 7:28.
[14] Vesin, B., Ivanović, M., Klaŝnja-Milićević, A., & Budimac, Z. (2012). Protus 2.0: ontology-based semantic recommendation in programming tutoring system. Expert Systems with Applications, 39(15), 12229e12246.
[15] Aeiad, E., Meziane, F. (2019) An adaptable and personalized E-learning system applied to computer science Programmes design Education and Information Technologies 24, 1485-1509
[16] Gütl, C., & Chang, V. (2008). The use of web 2.0 technologies and services to support e-learning ecosystem to develop more effective learning environments In Proceedings of ICDEM (pp. 145e148).
[17] Kannan, S. R., & Saravanan, P. (2013). Implementation of ontology in intelligent e-learning system development based on semantic web. Computer Science.
[18] Stojanovic L., Maedche A., Stojanovic N., Studer R. (2003a). Ontology evolution as reconfiguration-design problem solving in proceedings of KCAP 2003, ACM, pp. 162-171.
[19] Al-Yahya, M., George, R., & Alfaries, A. (2015). Ontologies in e-learning: review of the literature. International Journal of Software Engineering and Its Applications, 9(2), 67-84.
[20] Chimalakonda S. and Nori K. V. (2020). An ontology based modeling framework for design of educational technologies. Smart Learning Environments, 7:28.
[21] Taheriyan, M., Knoblock, C., Szekely, P., & Ambite, J. L. (2014). A scalable approach to learn semantic models of structured sources. In Paper presented at the semantic computing (ICSC), 2014 IEEE international conference on.
[22] Mizoguchi, R., & Bourdeau, J. (2016). Using ontological engineering to overcome aided problems: con-tribution, impact and perspectives. International Journal of Artificial Intelligence in Education, 26(1), 91-106.
[23] Tapia-Leon, M., Rivera, A. C., Chicaiza, J., & Luján-Mora, S. (2018). Application of ontologies in higher education: a systematic mapping study. In 2018 IEEE Global Engineering Education Conference (EDUCON), (pp. 1344-1353). IEEE.
[24] Yago, H., Clemente, J., Rodriguez, D., & Fernandez-de Cordoba, P. (2018). On-smile: ontology network-based student model for multiple learning environments.Data & Knowledge Engineering, 115, 48-67.
[25] Grivokostopoulou, F., Perikos, I., Paraskevas, M., & Hatzilygeroudis, I. (2019). An ontology-based approach for user Modelling and personalization in E-learning systems. 2019 IEEE/ACIS 18th International Conference on Computer and Information Science (ICIS), (pp. 1-6). https://doi.org/10.1109/ICIS46139.2019.8940269.
[26] Stancin, K., Poscic, P., & Jaksic, D. (2020). Ontologies in education - state of the art. Education and Information Technologies. https://doi.org/10.1007/s10639-020-10226-z.
[27] Aroyo, L., Dicheva, D.: The new challenges for e-learning the educational semantic web, Educ. Technol. Soc. 7(4), 59-69 (2013)
[28] Dicheva, D., Mizoguchi, R., Greer, J. (eds.): Semantic Web technologies for E-Learning, p. 252. IOS Press, Amsterdam (2009).
[29] Bajec, M.: A framework and tool-support for reengineering software development methods. Informatica 19(3), 321-344 (2008)
[30] Henze, N., Dolog, P., & Nejdl, W. (2004) Reasoning and ontologies for personalized e-learning in the semantic web, Journal of Educational Technology & Society, 7(4), 82e97.
[31] Moreale, E., & Vargas-Vera, M. (2004) Semantic services in e-learning: an argumentation case study Journal of Educational Technology & Society, 7(4), 112e128.
[32] M'tir, R. H., Jerihil, L., & & Rumpler, B. (2010). Learning area based on an ontology formal model for e-learning systems. In Paper presented at the digital information management, 2006 1st international conference on.
[33] Min, W. X., Wei, C., & & Lei, C. (2008). Research of ontology-based adaptive learning system. In Paper presented at the computational intelligence and design, 2008. ISCID'08. International symposium on.
[34] Liu, Z., Liu, L., Kang, H., Zhong, S., & Jia, B. (2009). An ontology-based method of adaptive learning. In Paper presented at the INC, IMS and IDC, 2009. NCM'09. Fifth international Joint conference on.
[35] Shamsi, K. N., & Khan, Z. I. (2012). Development of an e-learning system incorporating semantic web. ArXiv preprint arXiv: 1209.3117.
[36] Yee-King, M. J., Wilmering, T., Rodriguez, M. T. L., Krivenski, M., & d' Inverno, M. (2019). Technology enhanced learning: the role of ontologies for feedback in music performance. Frontiers in digital humanities, 5.
[37] Aróstegui, J. L., Stake, R., Simons, H. (2004). Music education for the 21st century: epistemology and ontology as bases for student aesthetic education. Education policy analysis Archives, 12(54).
[38] Raimond, Y., Giasson, F., Jacobson, K., Fazekas, G., Gangler, T., Reinhardt S. (2010). The music ontology specification, in: Online Specification Document. Retrieved 24-02-2022, from: http://musicontology.com/.
[39] Rashid, S. M., De Roure, D., & McGuinness, D. L. (2018). A music theory ontology. Proceedings of the 1st International Workshop on Semantic Applications for Audio and Music - SAAM '18.
[40] Ceriani, M., Fazekas, G. (2018). Audio commons ontology: a data model for an audio content ecosystem, in International Semantic Web Conference, Springer, pp. 20-35.
[41] Kolozali S., Fazekas G., Barthet M., Sandler M., (2011). Knowledge representation issues in musical instrument ontology design, in Proc. of the 12th International Society for Music Information Retrieval (ISMIR'11) Conference, 24-28 Oct., Miami, Florida, USA.
[42]
[42] Yee-King, M. J., Wilmering, T., Rodriguez, M. T. L., Krivenski, M., & d' Inverno, M. (2019). Technology enhanced learning: the role of ontologies for feedback in music performance. Frontiers in digital humanities, 5.
[43] Turchet L., Bouquet P., Molinari A., Fazekas G. (2021). The Smart Musical Instruments Ontology, Journal of Web Semantics (IF1.897).
[44] Allik, A., Fazekas, G., and Sandler, M. B. (2016). "Ontological representation of audio features," in Proceedings, Part II The Semantic Web - ISWC 2016: 15th International Semantic Web Conference, eds P. Groth, E. Simperl, A. Gray, M. Sabou, M. Krötzsch, F. Lecue, F. Flöck, and Y. Gil (Kobe: Springer International Publishing), 3-11.
[45] Corcho, O., Fernández-López, M., & Gómez-Pérez, A. (2003). Methodologies, tools and languages for building ontologies: where is their meeting point? Knowledge Engineering, 46(1), 41-64. doi: 10.1016/s0169-023x (02)00195-7.
[46] Keet, M. (2018). An introduction to ontology engineering. Cape Town: Maria Keet.
[47] Kanellopoulos, D., Kotsiantis, S. B., & Pintelas, P. E. (2006). Ontology-based learning applications: A development methodology. In Paper presented at the IASTED conference on software engineering.
[48] Min, W. X., Wei, C., & & Lei, C. (2008). Research of ontology-based adaptive learning system. In Paper presented at the computational intelligence and design, 2008. ISCID'08. International symposium on.
[49] Groff, J. (2013) Technology-rich innovative learning environments, Innovative Learning Environments, 1e30.
[50] Pramitasari, L., Hidayanto, A. N., Aminah, S., Krisnadhi, A. A., & Ramadhanie, A. M. (2009). Development of student model ontology for personalization in an eLearning system based on semantic web. In Paper presented at the international conference on advanced computer science and information systems (ICACSIS09), Indonesia, December.
[51] Kay, J. (2008). Lifelong learner modeling for lifelong personalized pervasive learning. Learning Technologies, IEEE Transactions on, 1(4), 215e228.
[52] Wenger, E. (2014). Artificial intelligence and tutoring systems: computational and cognitive approaches to the communication of knowledge. Morgan Kaufmann.
[53] Tsihrintzis, G. A., Virvou, M., Jain, L. C., & Howlett, R. J. (2011). Intelligent interactive multimedia systems and services in, vol. 11. Proceedings of the 4th international conference on intelligent interactive multimedia systems and services (IIMSS 2011). Springer Science & Business Media.
[54] Holzinger, A., & Pasi, G. (2013). Human-computer interaction and knowledge discovery in complex, unstructured, big data. In Third International workshop, HCIKDD 2013, held at SouthCHI 2013, Maribor, Slovenia, July-1-3, 2013, proceedings (vol. 7947). Springer.
[55] Henderson, M., Shurville, S., Fernstrom, K., & Zajac, M. (2009). Using learning styles to personalize online learning. Campus-wide information systems, 26(3), 256e265.
[56] Gulbahar, Y., & Alper, A. (2011). Learning preferences and learning styles of online adult learners. Education in a technological world: communicating current and emerging research and technological efforts, 270e278.
[57] Al-Azawei, A., & Badii, A. (2014). State of the art of learning styles-based adaptive educational hypermedia systems (LS-BAEHSs). International Journal of Computer Science and Information Technology, 6(3), 1e19.
[58] Florea, A. M., & Dung, P. Q. (2012). Adaptation to Learners' learning styles in a multi agent e-learning system. In Paper presented at the Conference proceedings of" eLearning and Software for Education"(eLSE).
[59] M'tir, R. H., Jerihil, L., & & Rumpler, B. (2010). Learning area based on an ontology formal model for e-learning systems. In Paper presented at the digital information management, 2006 1st international conference on.
[60] Karami, M., Pakmehr, H., & Aghili, A. (2012). Another view to importance of teaching methods in curriculum: collaborative learning and students' critical thinking disposition. Procedia-Social and Behavioral Sciences, 46, 3266e3270.
[61] Derntl, M., Neumann, S., & Oberhuemer, P. (2009). Report on the standardized description of instructional models.
[62] Kurilovas, E., Kubilinskiene, S., & Dagiene, V. (2014). Web 3.0 eBased personalization of learning objects in virtual learning environments. Computers in Human Behavior, 30, 654e662.
[63] Hattie, J., & Timperley, H. (2007). The Power of Feedback, Review of Educational Research, 77(1), 81-112. Doi: 10.3102/003465430298487
[64] Arnold W. E., McCroskey J. C., Prichard S. V. O. (1967) The Likert-type scale, Today's Speech, 15/2: 31-33.
[65] Wang C. (1985) Measures of Creativity in Sound and Music: Unpublished manuscript.
[66] Ryan T. G., Brown K. (2013) Musical Creativity: Measures and Learning Journal of Elementary Education Vol. 22, No. 2, pp.105-120.
[67] Webster P., Hickey M. (2021) Rating Scales and their Use in Assessing Children's Music Compositions, Visions of Research in Music Education, Vol. 16, Art 26.
[68] K. L., Skillen, L., Chen, C. D., Nugent, M. P., Donnelly, W., Burns, & I., Solheim, (2014). Ontological user modelling and semantic rule-based reasoning for personalization of Help-On-Demand services in pervasive environments. Future Generation Computer Systems, 34, 97-109.
[69] Grant, P., & Basye, D. (2014) Personalized learning: a guide for engaging students with technology, International Society for Technology in Education.
[70] Zine, O., Derouich, A., & Talbi, A. (2019). IMS Compliant Ontological Learner Model for Adaptive E-Learning Environments. International Journal of Emerging Technologies in Learning (iJET), 14(16), 97. doi:10.3991/ijet.v14i16.10682.
[71] Wu, L., Liu, Q., Zhou, W., Mao, G., Huang, J., & Huang, H. (2018). A Semantic Web-Based Recommendation Framework of Educational Resources in E-Learning. Technology, knowledge and learning. Doi: 10.1007/s10758-018-9395-7.
[72] Abtar, D. S. & Hassan, M. (2017). In pursuit of smart learning environments for the 21st century. In-Progress Reflection No. 12 on Current and Critical Issues in Curriculum, Learning and Assessment.
[73] Bray, B., & McClaskey, K. (2013) A step-by-step guide to personalize learning Learning & Leading with Technology, 40(7), 12e19.
[74] Papadakis I., Stefanidakis M. 2008. Visualizing ontologies on the web, New Directions in Intelligent Interactive Multimedia, Studies in Computational Intelligence, vol. 142, Springer Verlag, pp. 303-311.
[75] Bouihi, B., & Bahaj, M. (2019). Ontology and Rule-Based Recommender System for E-learning Applications. International Journal of Emerging Technologies in Learning (iJET), 14(15), 4. doi:10.3991/ijet.v14i15.10566