International Journal of Educational Innovation and Science, 2022, 3(4); doi: 10.38007/IJEIS.2022.030404.
Suzanan Ahmad
University of Anbar, Iraq
Digital multimedia technology is a variety of comprehensive information technologies with images, sounds and videos as carriers. Dulcimer teaching includes comprehensive dulcimer music education that develops dulcimer music knowledge, appreciation and creativity. The main purpose of this article is to study the application of digital media VR technology in dulcimer education. This paper adopts exploratory research methods, uses knowledge in the field of virtual reality technology, analyzes the advantages of actual teaching cases, and proposes the design of desktop computer virtual reality research programs for targeted teaching cases. And use software to display in virtual reality. The use of digital multimedia features to increase the flexibility of instructional approaches to the dulcimer has greatly facilitated the instruction of the dulcimer and promoted students' interest in learning the dulcimer. The outcome of the paper's trials indicates that with the implementation of digital media VR skills. students’ interest in dulcimer has been greatly improved, their enthusiasm has increased by 25%, and thedulcimer teaching model has also been greatly improved. Satisfaction with teaching increased by 32%.
Digital Multimedia Technology, VR Technology, Dulcimer Teaching, Music Teaching
Suzanan Ahmad. Dulcimer Teaching Based on Digital Multimedia VR Technology. International Journal of Educational Innovation and Science (2022), Vol. 3, Issue 4: 42-54. https://doi.org/10.38007/IJEIS.2022.030404.
[1] Kim B G, Hong G S, Psannis K E. Design of efficient shape feature for object-based watermarking technology. Multimedia Tools & Applications, 2017, 76(21):1-19. DOI:10.1007/s11042-017-4344-3
[2] Din B, Ashish T, Rajesh P, et al. Characterization & evaluation of Al7075 MMCs reinforced with ceramic particulates and influence of age hardening on their tensile behavior. Journal of Mechanical ence & Technology, 2018, 32(7):3123-3128. DOI:10.1007/s12206-018-0615-9
[3] Prichard, Stephanie. A Mixed-Methods Investigation of Preservice Music Teaching Efficacy Beliefs and Commitment to Music Teaching. Journal of Research in Music Education, 2017, 65(2):237-257. DOI:10.1177/0022429417710387
[4] Saddik A E. Digital Twins: The Convergence of Multimedia Technologies. IEEE multimedia, 2018, 25(2):87-92.
[5] Cao D, Liu C, Li G, et al. 54.Construction of Red Culture Heritage in Digital Application Platform. Boletin Tecnico/Technical Bulletin, 2017, 55(12):399-406.
[6] Maulana S S H. Media Introduction to Practical Tool using Android-Based AugmentedReality Technology. Journal of Engineering and Applied ences, 2017, 12(13):3292-3298. DOI:10.3923/jeasci.2017.3292.3298
[7] Janette Michelle Hughes. Digital making with "At-Risk" youth. International Journal of Information & Learning Technology, 2017, 34(2):102-113. DOI:10.1108/IJILT-08-2016-0037
[8] Jin C. Analysis of music teaching mode innovation based on intelligent classroom and multimedia system. Revista De La Facultad De Ingenieria, 2017, 32(1):534-543.
[9] Lee V R, Fields D A. A rubric for describing competences in the areas of circuitry, computation, and crafting after a course using e-textiles. International Journal of Information & Learning Technology, 2017, 34(5):00-00. DOI:10.1108/IJILT-06-2017-0048
[10] Barathi S, Loganathan G, Rajan V R. Knowledge Management. Advances in computational ences and technology, 2017, 10(5(5)):1479-1486.
[11] Giri R K K V, Mandla V R. Study and evaluation of carbon sequestration using remote sensing and GIS: A review on various techniques. International Journal of Civil Engineering and Technology, 2017, 8(4):287-300.
[12] Beata P A, Jeffers A E, Kamat V R. Real-Time Fire Monitoring and Visualization for the Post-Ignition Fire State in a Building. Fire Technology, 2018, 54(4):995-1027. DOI:10.1007/s10694-018-0723-1
[13] Tang X, Bian J, Liu S, et al. Application of multimedia digital technology in traditional residence architectural analysis and protection. Revista de la Facultad de Ingenieria, 2017, 32(4):796-803.
[14] Samsingh V R, Kanagasabai M, Sundarsingh E F. A Novel Metamaterial Enhanced Microwave Testing System for Bare PCB Substrates Using Image Rendering Approach. IEEE Transactions on Components, Packaging, and Manufacturing Technology, 2017, PP(2):1-7. DOI:10.1109/TCPMT.2016.2633974
[15] Migurenko V R, Mel'Nikov B E, éigenson, S. N, et al. Studying the Crack Resistance of Some Parts of Hydropower Equipment. Power Technology & Engineering, 2017, 51(2):1-8.
[16] Herman A, O. Vrátný, I. Kubelková. Monitoring of manufacture stability of large turbine blades using infrared thermography (IRT) in investment casting technology. Archives of Foundry Engineering, 2018, 18(4):9-14. DOI:10.24425/123624
[17] Forrester, Sommer H. Music Teacher Knowledge: An Examination of the Intersections Between Instrumental Music Teaching and Conducting. Journal of Research in Music Education, 2018, 65(4):461-482. DOI:10.1177/0022429417742124
[18] Cui X, Diao J, Liu Y. Study on the Three Dimensional Animation Creation Based on Digital Technology and Multimedia Simulation. Revista de la Facultad de Ingenieria, 2017, 32(3):65-72.
[19] Qin J, Zhao K, Yu H. Art Design Education in the New Era Featured with the Integration of Arts and Motion Sensing Technology. Eurasia Journal of Mathematics ence & Technology Education, 2017, 13(8):5883-5891. DOI:10.12973/eurasia.2017.01037a
[20] Liu H, Zhang X T, Fu X M, et al. Computational peeling art design. ACM Transactions on Graphics (TOG), 2019, 38(4):1-12. DOI:10.1145/3306346.3323000