參考文獻 |
[1] L. M. Lunce, “Simulations: Bringing the benefits of situated learning to the traditional classroom”, Journal of Applied Educational Technology, Vol. 3(1), pp. 37-45, 2006.
[2] E. Dale, Audio-Visual Methods in Teaching (3rd Edn.), Holt, Rinehart, and Winston, 1969.
[3] J. Dewey, Schools of tomorrow. New York: E. P. Duton and Co., 1915.
[4] D. Kolb, Experiential learning: Experience as the source of learning and development, Prentice-Hall Englewood Cliffs, NJ.,1984.
[5] J. Herrington and R. Oliver, “An instructional design framework for authentic learning environments”, Educational Technology Research and Development, Vol. 48, pp. 23–48, 2000.
[6] L. Herod, Adult learning from theory to practice, retrieved 2011/06/20 from http://www.nald.ca/adultlearningcourse/glossary.htm.
[7] M. M. Lombardi, “Authentic learning for the 21st century: An overview”, Educause learning initiative, D. G. Oblinger (Ed.), 2007.
[8] R. Gagne, W. Wager, K. Golas, J. Keller, and J. Russell,.”Principles of instructional design”, Performance Improvement, Vol. 44(2), pp. 44-46, 2007.
[9] H. C. V. Vugt, E. A. Konijn, J. F. Hoorn, L. Keur, and A. Eliens, “Realism is not all! User engagement with task-related interface characters”, Interacting with Computers, Vol. 19 (2), pp. 267-280, 2007.
[10] N. Strangman, and T. Hall, Virtual reality/simulations, National Center on Accessing the General Curriculum, Wakefield, 2003.
[11] S. H. Hsu, “An initial comparison of physical and virtual learning companion on learner's concentration”, National Central University, Master thesis, 2007.
[12] C. W. Chang, J. H. Lee, P. Y. Chao, C. Y. Wang, and G. D. Chen, “Exploring the possibility of using humanoid robots as instructional tools for teaching a second language in primary school”, Journal of Educational Technology & Society, Vol. 13(2), pp. 13-24, 2010.
[13] D. A. Kolb, R. E. Boyatzis and C. Mainemelis, “Experiential Learning Theory: Previous Research and New Directions”, Sternberg, R. J. and Zhang, L. F. (Eds.). Perspectives on cognitive, learning, and thinking styles. NJ: Lawrence Erlbaum, 2000.
[14] M. S. Donovan, J. D. Bransford, & J. W. Pellegrino, How People Learn: Bridging Research and Practice, National Academies Press, Washington, DC, 1999.
[15] J. Herrington, and L. Kervin, “Authentic learning supported by technology: 10 suggestions and cases of integration in classrooms”, Educational Media International, Vol. 44(3), pp. 219-236, 2007.
[16] Z. G. Pan, A. D. Cheok, H. W. Yang, J. J. Zhu, J. Y. Shi, “Virtual reality and mixed reality for virtual learning environments”, Computers & graphics, Vol. 30, pp, 20-28, 2006.
[17] M. C. Salzman, C. Dede, R. B. Loftin, and J. Chen, “A model for understanding how virtual reality aids complex conceptual learning”, Presence: Teleoperators and Virtual Environments, Vol. 8, pp. 293–316, 1999.
[18] W. Liu, and D. Cheok, M.L. Lim, and Y.L. Theng, “Mixed Reality Classroom - Learning from Entertainment”, Proceedings of the 2nd international conference on Digital Interactive Media in Entertainment and Arts, Perth, Australia, pp. 65-72, 2007
[19] M. Billinghurst, H. Kato,and I. Poupyrev, "The MagicBook: a transitional AR interface", Computers & Graphics, Vol. 25(5), pp. 745-753, 2001.
[20] F. W. Bruns, H. H. Erbe, D. Muller, F. M. Schaf, C. E. Pereira, C. L. Reichert, F. Campana, and I. A. Krakheche, “Collaborative Learning and Engineering Workspaces”, proceedings of the Cost Effective Automation in Networked Product Development and Manufacturing (CEA), 2007
[21] M. Roussou, “A VR Playground for Learning Abstract Mathematics Concepts”, Computer Graphics and Applications, IEEE, Vol. 29(1), 2009
[22] L. Xie, A. N. Antle, and N. Motamedi, “Are tangibles more fun?: comparing children’s enjoyment and engagement using physical, graphical and tangible user interfaces”, in TEI ’08: Proceedings of the 2nd international conference on Tangible and embedded interaction. ACM, New York, NY, USA, pp. 191–198, 2008.
[23] R. Andrew, K. Johnsen, R. Dickerson, B. Lok, M. Cohen, A. Stevens, T. Bernard, C. Oxendine, P. Wagner, and S. Lind, “Comparing Interpersonal Interactions with a Virtual Human to those with a Real Human”, IEEE Transactions on Visualization and Computer Graphics, Vol. 13, pp. 443-457, 2007.
[24] J. Wainer, D. Feil-Seifer, D. Shell, and M. Mataric, “Embodiment and human-robot interaction: A task-based perspective”, in Proceedings of the International Conference on Human-Robot Interaction, 2007.
[25] F. Klassner, and S. Anderson, “Lego MindStorms: Not just for K-12 anymore”, IEEE Robotics and Automation Magazine, 2003.
[26] H. J. Ryu, S. S. Kwak, and M. S. Kim, “Design Factors for External Form of Robots as Elementary School Teaching Assistants”, The Bulletin of Japanese Society for Science of Design (JSSD), Vol. 54(5), 2008.
[27] S. Papert, The children's machine, New York: Basic Books, 1993.
[28] T. Ito, G. T. Nguyen, and M. Sugimoto, “A Storytelling Support System using Robots and Handheld Projectors”, In Proceedings of IDC 2008, Evanston, IL, 2008.
[29] H. Jeonghye, K. Dongho, L. KyungSeon, P. SungJu, and S. KyungChul, “A Teaching Assistant Robot in Elementary Schools”, The 2nd International Conference on Ubiquitous Robots and Ambient Intelligence, 2005.
[30] T. Kanda, T. Hirano, D. Eaton, and H. Ishiguro, “Interactive Robots as Social Partners and Peer Tutors for Children: A Field Trial”, Journal of Human Computer Interaction, Vol. 19 (1-2), pp. 61-84, 2004.
[31] T. Kanda, and H. Ishiguro, “Communication Robots for Elementary Schools” in Proc. AISB'05 Symposium Robot Companions: Hard Problems and Open Challenges in Robot-Human Interaction, pp. 54-63, 2005.
[32] J.B. Weinberg, and X. Yu, ”Robotics in education: Low cost platforms for teaching integrated systems”, IEEE Robotics & Automation Magazine, Vol. 10(2), pp. 4–6, 2003.
[33] S. Turkle, and S. Papert, “Epistemological pluralism and the revaluation of the concrete”, Journal of Mathematical Behavior, Vol. 11(1), pp. 3–33, 1992.
[34] F. Marin, B. Mikhak, M. Resnick, B. Silverman, and R. Berg, “To mindstorms and beyond: Evolution of a construction kit for magical machines”, A. Druin & J. Hendler (Eds.), Robots for kids: Exploring new technologies for learning pp. 9–33. San Mateo, CA: Morgan Kaufmann, 2000.
[35] M. Cooper, D. Keating, W. Harwin, and K. Dautenhahn, “Robots in the classroom – Tools for accessible education”., C. Buhler, and H. Knops (Eds.), Assistive Technology on the Threshold of the New Millennium, pp. 448–452, Amsterdam: IOS Press, 1999.
[36] J. Hendler, “Robots for the rest of us: Designing systems out of the box”, A. Druin, and J. Hendler (Eds.), Robots for kids: Exploring new technologies for learning, San Mateo, CA: Morgan Kaufmann., 2000.
[37] H. Jeonghye, K. Dongho, L. KyungSeon, P. SungJu, and S. KyungChul, “A Teaching Assistant Robot in Elementary Schools”, The 2nd International Conference on Ubiquitous Robots and Ambient Intelligence, 2005.
[38] T. Kanda, , R. Sato, N. Saiwaki and H. Ishiguro, “A Two-Month Field Trial in an Elementary School for Long-Term Human–Robot Interaction” , IEEE TRANSACTIONS ON ROBOTICS, Vol. 23(5), pp. 962-971, 2007.
[39] M. Dragone, T. Holz, and G. M. P. O'Hare, “Using Mixed Reality Agents as Social Interfaces for Robots” in: Proceedings of the 16th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN 2007), Jeju Island, Korea, August 26-29, 2007.
[40] I. A. Zualkernan, “A framework and a methodology for developing authentic constructivist e-learning environments”, Journal of Educational Technology & Society, Vol. 9(2), pp. 198-212, 2006.
[41] C. W. Chang, J. H. Lee, C. Y. Wang, and G. D. Chen, “Improving the authentic learning experience by integrating robots into the mixed reality environment”, Computers & Education. Vol. 55(4), pp. 1572-1578, 2010.
[42] S. E.Smaldino, J. D. Russell, R. Heinich, and M. Molenda, Instructional media and technologies for learning (8th ed.), Upper Saddle River, NJ: Prentice Hall, 2004.
[43] B. House, J. Malkin, and J. A Bilmes, “The VoiceBot: A voice controlled robot arm”, in proceedings of CHI 2009, New York: ACM Press, 2009.
[44] E. Garvie, Story as vehicle: Teaching English to young children, Clevedon, Avon, UK: Multilingual Matters, 1990.
[45] H. D. Brown, Principles of language learning and teaching (4th ed.), New York: Longman, 2000.
[46] P. Castagnaro, “Audiolingual method and behaviorism: From misunderstanding to myth”, Applied Linguistics, Vol. 27, pp. 519–526, 2006.
[47] M. Csikszentmihalyi, Flow: The psychology of optimal experience, New York: Harper & Row, 1990.
[48] J. J. Asher, Learning another language through actions: The complete teacher's guidebook (2nd ed.). Los Gatos, CA: Sky Oaks Productions, 1982.
[49] T.V. Higgs, and R. Clifford, “The push toward communication”, in Curriculum, Competence and the Foreign Language Teacher. Skokie, T.V. Higgs (Eds.), IL: National Textbook, 1982.
[50] A Uhlenbeck, “The development of an assessment procedure for beginning teachers of English as a foreign language”, doctoral dissertation, University of Leiden, The Netherlands, 2002.
[51] M. Finocchiaro, and C. Brumfit, The Functional–Notional Approach: From Theory to Practice, New York: Oxford University Press, 1983.
[52] J. T .M. Gulikers, Th. J. Bastiaens, and P. A. Kirschner, “Authentic assessment, student and teacher perceptions: the practical value of the five-dimensional framework”, Journal of Vocational Education and Training. Vol. 58 (3). pp. 337 – 357, 2006.
[53] P. Marti, L. Giusti, A. Pollini, and A. Rullo, “Experiencing the flow: design issues in human-robot interaction”, Proceedings of Soc-Eusai, Grenoble, France, 2005.
[54] D. A. Schon, Educating the Reflective Practitioner: Toward a New Design for Teaching and Learning in the Professions, San Francisco: Jossey-Bass, 1988.
[55] D. Willis, and J. Willis, Doing task-based teaching, Oxford: Oxford University Press, 2007.
[56] N. Prabhu, Second Language Pedagogy, Oxford: Oxford University Press, 1987.
[57] W. Littlewood, Communicative Language Teaching: An Introduction, Cambridge: Cambridge University Press, 1981.
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