研究生: |
孫景滙 Sun, Ching-Hui |
---|---|
論文名稱: |
結合科學探究學習與影片協同製作行動應用程式之開發與評估 Development and Evaluation of a Mobile Application with Integration of Science Inquiry Learning and Collaborative Video Production |
指導教授: |
邱瓊慧
Chiu, Chiung-Hui |
學位類別: |
碩士 Master |
系所名稱: |
資訊教育研究所 Graduate Institute of Information and Computer Education |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 91 |
中文關鍵詞: | 科學探究學習 、影片協同製作 、行動學習 、影片協同製作行動應用程式 |
英文關鍵詞: | science inquiry learning, collaborative video production, mobile learning, video co-production mobile application |
DOI URL: | http://doi.org/10.6345/THE.NTNU.GICE.003.2019.F02 |
論文種類: | 學術論文 |
相關次數: | 點閱:172 下載:0 |
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本系統開發旨在建置一個結合科學探究學習與影片協同製作的行動應用程式(APP),並於APP建置完成後進行系統評估,以瞭解使用者對其滿意程度以及將其應用於實際課堂中的可行性。系統開發環境為iOS系統,以Swift3.0為開發語言,Xcode為開發工具,採取雛形演進策略為系統開發方法,並於開發過程中邀請國小高年級學生使用應用程式的第一期雛型,記錄學生操作歷程以偵測系統功能錯誤,作為第二週期雛型演進的依據。完成第二期雛型後再次邀請國小高年級學生使用APP進行科學探究學習活動以偵測系統功能錯誤、確定系統發展方向,並進行滿意度調查。待完成版本APP建置完成後,以新北市某國小28位五年級學生為參與者,進行科學探究影片製作學習活動,於活動後進行滿意度調查,並訪談3位學生以了解其對APP之看法及建議。經由使用者多次測試及系統評估結果,得知本系統可支持國小學童協同製作科學探究影片,並能提供建議給未來結合科學探究學習與影片協同製作的行動應用程式開發參考。
This study aimed to develop a mobile application that integrated science inquiry learning and collaborative video production, and evaluate users’ satisfaction as well as its feasibility in classroom implementation. Based on iOS and Swift 3.0 with Xcode, the Evolutionary Prototyping Model was adopted for system development. During the development process, 27 primary school students were invited to experience the first prototype. Their log files were collected for testing and debugging and served as the basis for developing the second prototype. The students were then invited again to use the second prototype for science inquiry learning activities for further system debugging, development direction confirmation, and user satisfaction investigation. A total of 28 fifth graders in a primary school in XinBei City used the final version of the application for science inquiry. User satisfaction after using the application was collected and three students were further interviewed to understand their perceptions and suggestions concerning the application. The results from users’ multiple testing and system evaluation indicated that the application effectively supported primary school students’ co-production of science inquiry videos. The findings also provide reference for future mobile application development concerning combining science inquiry learning and collaborative video production.
吳仁和, 林信惠, & 凌網科技股份有限公司. (2007). 系統分析與設計 (四版 ed.). 臺北市: 智勝文化.
林根煌. (2015). 行動載具結合探究教學之學習成效研究 -以國小自然與生活科技「巧妙的施力工具」單元為例. (碩士), 國立新竹教育大學, 新竹市. Retrieved from https://hdl.handle.net/11296/v2kv9d
邱瓊慧. (2017). 支持探究影片(video)共創與共享學習之工具與環境的研究與發展(1/3). 台北, 台灣, 科技部.
嚴文法. (2008). 美國 RIP 和 4-H 科學探究模型評析及啟示. 化學教學, 2008(11), 49-51.
Beacon, E. (2015). What is inquiry? Just Science Now. Retrieved from http://www.justsciencenow.com/inquiry/
Bergmann, J., & Sams, A. (2014). Flipped learning: Gateway to student engagement: International Society for Technology in Education.
Buckingham, D. (2007). Media education goes digital: an introduction. Learning, media and technology, 32(2), 111-119.
Buckingham, D., Banaji, S., Carr, D., Cranmer, S., & Willett, R. (2005). The media literacy of children and young people: A review of the research literature.
Charland, A., & Leroux, B. (2011). Mobile application development: web vs. native. Queue, 9(4), 20.
Chu, S. K. W., Tse, S. K., Loh, E. K. Y., & Chow, K. (2011). Collaborative inquiry project-based learning: Effects on reading ability and interests. Library & Information Science Research, 33(3), 236-243. doi:https://doi.org/10.1016/j.lisr.2010.09.008
Colburn, A. (2000). An inquiry primer. Science scope, 23(6), 42-44.
Coleman, B., Neuhauser, J., & Vander Zwaag, C. (2004). “Play it Again, Zack!” Video classrooms: Proven practice and projects. In L. Cantoni & C. McLoughlin (Eds.), EdMedia + Innovate Learning 2004 (pp. 4723-4728). Lugano, Switzerland: Association for the Advancement of Computing in Education (AACE).
Cuevas, P., Lee, O., Hart, J., & Deaktor, R. (2005). Improving science inquiry with elementary students of diverse backgrounds. Journal of research in science teaching, 42(3), 337-357. doi:https://doi.org/10.1002/tea.20053
Davis, A. M., Bersoff, E. H., & Comer, E. R. (1988). A strategy for comparing alternative software development life cycle models. IEEE Transactions on Software Engineering, 14(10), 1453-1461. doi:https://doi.org/10.1109/32.6190
Davis, F. D., Bagozzi, R. P., & Warshaw, P. R. (1989). User acceptance of computer technology: a comparison of two theoretical models. Management science, 35(8), 982-1003.
Dexter, S. L., Anderson, R. E., & Becker, H. J. (1999). Teachers’ views of computers as catalysts for changes in their teaching practice. Journal of research on computing in education, 31(3), 221-239.
Edelson, D. C., Gordin, D. N., & Pea, R. D. (1999). Addressing the challenges of inquiry-based learning through technology and curriculum design. Journal of the learning sciences, 8(3-4), 391-450.
Ellis, G. W., Lee, K. S., & Tham, A. (2004). Learning engineering mechanics through video production. In 34th Annual Frontiers in Education, 2004. FIE 2004. (pp. F4E-7). Savannah, USA: IEEE.
Guo, P. J., Kim, J., & Rubin, R. (2014). How video production affects student engagement: an empirical study of MOOC videos. In Proceedings of the first ACM conference on Learning@ scale conference (pp. 41-50). New York, USA: ACM.
Hafner, C. A., & Miller, L. (2011). Fostering learner autonomy in English for science: A collaborative digital video project in a technological learning environment. Language Learning & Technology, 15(3), 68-86.
Harlen, W. (2014). Helping children’s development of inquiry skills. Inquiry in Primary Science Education, 1(1), 5-19.
Harrison, C. (2014). Assessment of inquiry skills in the SAILS project. Science Education International, 25(1), 112-122.
Hilton, G. (2011). Rehearsing for an audience: Students learning science through video production. International Journal of Innovation and Learning, 9(3), 311-324.
Johanna, P., Veera, K., Hannele, M. N., & Jari, M. (2016). A structured inquiry into a digital story: Students report the making of a superball. International Journal of Mobile and Blended Learning (IJMBL), 8(3), 19-34. doi:https://doi.org/10.4018/IJMBL.2016070102
Jonassen, D. H., Howland, J., Moore, J., & Marra, R. (2003). Learning to solve problems with technology: A constructivist perspective (2nd ed.). Columbus, Ohio: Prentice-Hall.
Karakoyun, F., & Kuzu, A. (2016). The investigation of preservice teachers' and primary school students' siews about online digital storytelling. European Journal of Contemporary Education, 15(1), 51-64.
Kearney, M., & Schuck, S. (2006). Spotlight on authentic learning: Student developed digital video projects. Australasian Journal of Educational Technology, 22(2), 189.
Krajcik, J., Blumenfeld, P. C., Marx, R. W., Bass, K. M., Fredricks, J., & Soloway, E. (1998). Inquiry in project-based science classrooms: Initial attempts by middle school students. Journal of the learning sciences, 7(3-4), 313-350.
Kubieck, J. (2005). Inquiry-based learning, the nature of science, and computer technology: New possibilities in science education. Canadian Journal of Learning and Technology / La revue canadienne de l’apprentissage et de la technologie, 31(1).
Lenhart, A., Purcell, K., Smith, A., & Zickuhr, K. (2010). Social media and mobile internet use among teens and young adults. Millennials. In Pew Internet & American Life Project (pp. 51). Washington: ERIC.
Maaß, K., & Artigue, M. (2013). Implementation of inquiry-based learning in day-to-day teaching: a synthesis. ZDM, 45(6), 779-795. doi:https://doi.org/10.1007/s11858-013-0528-0
Medoff, N., & Fink, E. J. (2013). Portable video: ENG & EFP. Burlington, USA: Focal Press.
Mikroyannidis, A., Okada, A., Scott, P., Russman, E., Specht, M., Stefanov, K., . . . Hetzner, S. (2013). weSPOT: A personal and social approach to inquiry-based learning. Journal of Universal Computer Science, 19(14), 2093-2111.
National Research Council. (1996). National science education standards: National Academies Press.
Olivas, A. D. (2013). Scientific inquiry meets storytelling filmmaking: Creating video lab reports using a project-based learning approach. Science scope, 36(5), 14-18.
Pappas, C. (2014). Instructional design models and theories: Inquiry-based learning model. Retrieved from http://elearningindustry.com/inquiry-based-learning-model
Peppler, K. A., & Kafai, Y. B. (2007). From SuperGoo to Scratch: Exploring creative digital media production in informal learning. Learning, media and technology, 32(2), 149-166.
Potter, J. (2005). ‘This Brings Back a Lot of Memories’—a case study in the analysis of digital video production by young learners. Education, Communication & Information, 5(1), 5-23.
Prensky, M. (2001). Digital natives, digital immigrants part 1. On the horizon, 9(5), 1-6.
Quintana, C., Reiser, B. J., Davis, E. A., Krajcik, J., Fretz, E., Duncan, R. G., . . . Soloway, E. (2004). A scaffolding design framework for software to support science inquiry. The journal of the learning sciences, 13(3), 337-386.
Reid, M., Burn, A., & Parker, D. (2002). Evaluation report of the BECTA digital video pilot project. UK: BECTA.
Resnick, M. (2001). Revolutionizing learning in the digital age. In The internet and the university: Forum (pp. 45-64).
Sadik, A. (2008). Digital storytelling: A meaningful technology-integrated approach for engaged student learning. Educational technology research and development, 56(4), 487-506.
Schofield, G., Bartindale, T., & Wright, P. (2015). Bootlegger: turning fans into film crew. In Proceedings of the 33rd Annual ACM Conference on Human Factors in Computing Systems (pp. 767-776). New York, USA: ACM.
Sharples, M., Arnedillo-Sánchez, I., Milrad, M., & Vavoula, G. (2009). Mobile learning. In Technology-enhanced learning (pp. 233-249). Dordrecht: Springer.
Sherrell, L. (2013). Evolutionary Prototyping. In A. L. C. Runehov & L. Oviedo (Eds.), Encyclopedia of Sciences and Religions (pp. 803-803). Dordrecht: Springer Netherlands.
Shewbridge, W., & Berge, Z. L. (2004). The role of theory and technology in learning video production: The challenge of change. International Journal on E-learning, 3(1), 31-39.
Song, Y. (2014). “Bring Your Own Device (BYOD)” for seamless science inquiry in a primary school. Computers & Education, 74, 50-60. doi:https://doi.org/10.1016/j.compedu.2014.01.005
Spires, H. A., Hervey, L. G., Morris, G., & Stelpflug, C. (2012). Energizing project-based inquiry: Middle-grade students read, write, and create videos. Journal of Adolescent & Adult Literacy, 55(6), 483-493. doi:10.1002/jaal.00058
Steinke, G., & Zimmerman, J. (2015). A digital story assignment using mobile devices and WeVideo (a cloud-based video editing program). Minnesota eLearning Summit. Retrieved from https://pubs.lib.umn.edu/index.php/mes/article/view/700
Subramani, S., Wolf, K., & Stiefs, D. (2013). Moviemaking as inquiry-based learning science class in schools. In INTED2013 Proceedings (pp. 3252-3260). Valencia, Spain: IATED.
Suárez, Á., Specht, M., Prinsen, F., Kalz, M., & Ternier, S. (2018). A review of the types of mobile activities in mobile inquiry-based learning. Computers & Education, 118, 38-55. doi:https://doi.org/10.1016/j.compedu.2017.11.004
Uzunboylu, H., Cavus, N., & Ercag, E. (2009). Using mobile learning to increase environmental awareness. Computers Education, 52(2), 381-389.
Van der Heijden, H. (2003). Factors influencing the usage of websites: the case of a generic portal in The Netherlands. Information management, 40(6), 541-549.
Vasilchenko, A., Green, D. P., Qarabash, H., Preston, A., Bartindale, T., & Balaam, M. (2017). Media literacy as a by-product of collaborative video production by CS students. In Proceedings of the 2017 ACM Conference on Innovation and Technology in Computer Science Education (pp. 58-63). New York, USA: ACM.
Welch, W. W., Klopfer, L. E., Aikenhead, G. S., & Robinson, J. T. (1981). The role of inquiry in science education: Analysis and recommendations. Science Education, 65(1), 33-50.
Wu, H. K., & Hsieh, C. E. (2006). Developing Sixth Graders’ Inquiry Skills to Construct Explanations in Inquiry‐based Learning Environments. International Journal of Science Education, 28(11), 1289-1313. doi:https://doi.org/10.1080/09500690600621035
Zydney, J. M., & Warner, Z. (2016). Mobile apps for science learning: Review of research. Computers & Education, 94, 1-17. doi:https://doi.org/10.1016/j.compedu.2015.11.001