CHI TIẾT NGHIÊN CỨU …

Tiêu đề

College Students’ Preferences on Principles for the Effective Instructional Video Design for Online General English Classes in Korea

Tác giả

Seo J.-Y.

Năm xuất bản

2022

Source title

Electronic Journal of e-Learning

Số trích dẫn

1

DOI

10.34190/ejel.20.3.2336

Liên kết

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85128179333&doi=10.34190%2fejel.20.3.2336&partnerID=40&md5=af4b3e1649ae41c7f8249ac04fc0c2ea

Tóm tắt

The present study investigates the preferences of students regarding the principles for the effective design of instructional videos to identify factors that influence engagement. A questionnaire was distributed to 232 students enrolled in online liberal arts classes at a private university in South Korea. Frequency analysis was conducted to determine preferences, whereas an independent sample t-test and one-way analysis of variance were administered to verify any differences in preferences according to gender and grade. The findings are as follows. First, out of the 12 principles that should be considered in the design of instructional videos, the students most preferred the review quiz principle. Moreover, this factor was found to exert the greatest influence on engagement. Second, incorporating real-life situation principles into instructional videos also had a significant impact on engagement. Third, female students expressed higher levels of preference than did male students in terms of the preview, course content on screen, and review quiz principles. Fourth, sophomores preferred the review quiz principle more than the freshmen did. The results of the present study are in line with those of previous research in that the effective instructional design of multimedia lessons requires reducing extraneous processing, managing essential processing, and fostering generative processing. Particularly, the study found that Korean students value video lectures with generative activities for meaningful learning. Based on the findings of the study, pedagogical considerations of the design of recorded lectures and its structure for active engagement, and suggestions for future studies are provided. © The Authors.

Từ khóa

cognitive theory of instruction; fostering engagement; instructional video design; movie English; multimedia principle

Tài liệu tham khảo

Abeysekera L., Dawson P., Motivation and cognitive load in the flipped classroom: definition, rationale and a call for research, Higher Education Research and Development, 34, 1, pp. 1-14, (2014); Boettcher J., Ten best practices for teaching online: quick guide for new online faculty, Designing for Learning, (2011); Brame C. J., Effective educational videos: principles and guidelines for maximizing student learning from video content, CBE Life Sciences Education, 15, es6, pp. 1-6, (2016); Brown G. A., Bice M. R., Shaw B. S., Shaw I., Online quizzes promote inconsistent improvements on in-class test performance in introductory anatomy and physiology, Advances in Physiology Education, 39, pp. 63-66, (2015); Brown K. G., Ford J. K., Using computer technology in training: building an infrastructure for active learning, Creating, implementing, and managing effective training and development, pp. 192-233, (2002); Buchner J., Generative learning strategies do not diminish primary students’ attitudes towards augmented reality, Education and Information Technologies, (2021); Castro-Alonso J. C., Wong M., Adesope O. O., Ayres P., Paas F., Gender imbalance in instructional dynamic versus static visualizations: a meta-analysis, Educational Psychology Review, 31, 2, pp. 361-387, (2019); Che H., Lee D., Exploring secondary teacher’s experience of distance learning due to COVID-19, Journal of Learner-Centered Curriculum and Instruction, 2, 16, pp. 1047-1071, (2020); Choe R. C., Scuric Z., Eshkol E., Cruser S., Arndt A., Cox R., Toma S. P., Shapiro C., Levis-Fitzgerald M., Barnes G., Student satisfaction and learning outcomes in asynchronous online lecture videos, Life Sciences Education, 18, ar55, pp. 1-14, (2019); Clark R. C., Multimedia learning in e-courses, The Cambridge handbook of multimedia learning, pp. 842-881, (2014); Costley J., Hughes C., Lange C., The effects of instructional design on student engagement with video lectures at cyber universities, Journal of Information Technology Education: Research, 16, pp. 189-207, (2017); Darrington A., Six lessons in e-learning: strategies and support for teachers new to online environments, Teaching English in the Two Year College, 35, 4, pp. 416-421, (2008); Davis J. H., Traditional vs. on-line learning: it’s not an either/or proposition, Employment Relations Today, 27, 1, pp. 47-60, (2000); DeRouin R. E., Fritzsche B. A., Salas E., Optimizing e-learning: research-based guidelines for learner-controlled training, Human Resource Management, 43, 23, pp. 147-162, (2004); Dykman C. A., Davis C. K., Online education forum: part two-teaching online versus teaching conventionally, Journal of Information Systems Education, 19, 2, pp. 157-164, (2008); Fayer L., A multi-case study of student perceptions of instructor-created videos in online courses, International Journal for Scholarship of Technology Enhanced Learning, 1, 2, pp. 67-90, (2017); Fiorella L., Mayer R. E., Eight ways to promote generative learning, Educational Psychology Review, 28, 4, pp. 717-741, (2016); Fiorella L., Stull A., Kuhlmann S. L., Mayer R. E., Fostering generative learning from video lessons: benefits of instructor generated drawings and learner-generated explanations, Journal of Educational Psychology, 112, pp. 895-906, (2020); Fyfield M., Henderson M., Philips M., 25 principles for effective instructional video design, ASCILITE (Australasian Society for Computers in Learning in Tertiary Education), Annual conference: diverse learning. diverse goals. one heart, pp. 418-423, (2019); Henderson M., Selwyn N., Aston R., What works and why? student perceptions of ‘useful’ digital technology in university teaching and learning, Studies in Higher Education, 42, 8, pp. 1567-1579, (2015); Hoffler T. N., Leutner D., Instructional animation versus static pictures: a meta-analysis, Learning and Instruction, 17, 6, pp. 722-738, (2007); Hsiao Y. C., Impacts of course type and student gender on distance learning performance: a case study in Taiwan, Education and Information Technologies, (2021); Johnston J., Killion J., Oomen J., Student satisfaction in the virtual classroom, Internet Journal of Allied Health Sciences and Practice, 3, 2, (2005); Kim D., Lee S., The relationship analysis among subject specific interests, self-regulated learning, learning flow and self-efficacy: focused on middle school English education, Asia-pacific Journal of Multimedia Services Convergent with Art, Humanities, and Sociology, 9, 3, pp. 51-59, (2019); Kong J. E., Lee D., A study on middle school students’ perceptions on remote English learning during COVID-19, Journal of English Teaching through Movies and Media, 22, 2, pp. 41-57, (2021); 2020 remote class operation casebook, (2020); Krause K. L., Coates H., Students’ engagement in first-year university, Assessment and Evaluation in Higher Education, 33, 5, pp. 493-505, (2008); Kuhl T., Eitel A., Damnik G., Korndle H., The impact of disfluency, pacing, and students’ need for cognition on learning with multimedia, Computers in Human Behavior, 35, pp. 189-198, (2014); Lee H., Mayer R. E., Fostering learning from instructional video in a second language, Applied Cognitive Psychology, 32, pp. 648-654, (2018); Lee W.-P., Song J., Students' perceptions of the impact of video lectures with embedded quiz questions on e-learning in dentistry, Oral Biology Research, 45, 2, pp. 59-65, (2021); Lim J. M., Kim S. H., Baek M. J., Kim K. H., The effect of university students' learning flow, self-directed learning, and learning outcomes on uncontacted online class satisfaction, Journal of Digital Convergence, 19, 4, pp. 393-401, (2021); Magnussen L., Applying the principles of significant learning in the e-learning environment, Journal of Nursing Education, 47, 2, pp. 82-86, (2008); Mayer R. E., The Cambridge handbook of multimedia learning, (2014); Mayer R. E., Cognitive theory of multimedia learning, The Cambridge handbook of multimedia learning, pp. 43-71, (2014); Mayer R. E., Thirty years of research on online learning, Applied Cognitive Psychology, 33, 2, pp. 152-159, (2019); Mayer R. E., Multimedia principle, Multimedia learning, pp. 117-138, (2020); Mayer R. E., Evidence-based principles for how to design effective instructional videos, Journal of Applied Research in Memory and Cognition, 10, 2, pp. 229-240, (2021); Mayer R. E., DaPra C. S., An embodiment effect in computer-based learning with animated pedagogical agents, Journal of Experimental Psychology: Applied, 18, pp. 239-252, (2012); Mayer R. E., Pilegard C., Principles for managing essential processing in multimedia learning: segmenting, pre-training, and modality principles, The Cambridge handbook of multimedia learning, pp. 316-344, (2014); Moore R., Attendance and performance: how important is it for students to attend class?, Journal of College Science Teaching, 32, pp. 367-371, (2003); Moser K. M., Wel T., Brenner D., Remote teaching during COVID-19: implications from a national survey of language educators, System, 97, pp. 1-15, (2021); Murray D., Koziniec T., McGill T. J., Student perceptions of flipped learning, CRPIT (Conferences in Research), 17th Conference on Reproduction for Academic, pp. 57-62, (2015); A study of gamified e-quizzes for online student engagement during COVID-19, Multimedia-Assisted Language Learning, 23, 3, pp. 280-299, (2020); Pickering J. D., Swinnerton B. J., Exploring the dimensions of medical student engagement with technology-enhanced learning resources and assessing the impact on assessment outcomes, Anatomical Sciences Education, 12, 2, pp. 117-128, (2019); Price L., Gender differences and similarities in online courses: challenging stereotypical views of women, Journal of Computer Assisted Learning, 22, pp. 349-359, (2006); Quitadamo I. J., Brown A., Effective teaching styles and instructional design for online learning environments, National Educational Computing Conference on Building on the Future, (2001); Rickley M., Kemp P., Effects of video lecture design and production quality on student outcomes: a quasi-experiment exploiting change in online course development principles, The Electronic Journal of e-Learning, 19, 3, pp. 170-185, (2021); Roediger H. L., Karpicke J. D., The power of testing memory: basic research and implications for educational practice, Perspective on Psychological Science, 1, 3, pp. 181-210, (2006); Staats S., Cosmar D., Kaffenberger J., Sources of happiness and stress for college students: a replication and comparison over 20 years, Advances in Physiology Education, 101, pp. 685-696, (2007); Sweller J., Ayres P., Kalyuga S., Cognitive load theory, (2011); Szpunar K. K., Jing H. G., Schacter D. L., Overcoming overconfidence in learning from videorecorded lectures: implications of interpolated testing for online education, Journal of Applied Research in Memory and Cognition, 3, 3, pp. 161-164, (2014); Woodworth J. L., Raymond M. E., Chirbas K., Gonzalez M., Negassi Y., Snow W., Van Donge C., Online charter school study 2015, (2015)

Nơi xuất bản

Academic Conferences and Publishing International Limited

Hình thức xuất bản

Article

Open Access

All Open Access; Gold Open Access

Nguồn

Scopus