將可用性整合融入遊戲式學習

以作者查詢圖書館館藏

、以作者查詢臺灣博碩士

、以作者查詢全國書目

、勘誤回報

、線上人數：86

、訪客IP：3.131.13.37

姓名

施昱誠(Yu-Cheng Shih) 查詢紙本館藏

畢業系所

網路學習科技研究所

論文名稱

將可用性整合融入遊戲式學習
(Incorporating Usability into Game-based learning systems)

相關論文

★ 探討認知風格對於行動學習與合作學習的影響	★ 學習型網站的可用性評估：從問題到解決方案
★ 從人因的觀點評估遊戲式學習	★ 探討認知風格在遊戲式學習中對於客製化與個人化系統的影響
★ 探討認知風格在行動學習中對於客製化與個人化系統的影響	★ 性別差異與認知風格對合作化遊戲式學習的影響
★ 探討認知風格如何影響使用者在行動載具下使用電子期刊	★ 探討專家和新手對遊戲式學習進行可用性評估的觀感差異
★ 毒品經驗與遊戲先備知識對客製化與個人化遊戲式反毒宣導系統的影響	★ 探討背景音樂和認知風格對遊戲式學習的影響
★ 以多媒體科技和數位遊戲為小小人兒及患者家屬發展線上生活百科	★ 先備知識對註記式多媒體電子書的影響研究：從個別環境到分享環境
★ 從認知風格的角度探討提示對學習英文片語與文法的影響	★ 探討先備知識對學習者在使用鷹架英文學習系統的影響: 限制與扣分機制
★ 發展動畫電子書之研究：從性別差異到性別均等之歷程	★ 探討認知風格於數位遊戲式英語學習環境對遊戲行為與學習成效之影響

檔案

[Endnote RIS 格式]

[Bibtex 格式]

[相關文章]

[文章引用]

[完整記錄]

[館藏目錄]

至系統瀏覽論文 ( 永不開放)

摘要(中)

近年來，遊戲式學習受到非常大的歡迎，因為遊戲式學習可以帶來諸多的好處。例如，能提升學生的學習動機、能提升學生的學習效率、能刺激學生高層次的認知思考。最重要的是，遊戲式學習能與各個不同領域的學科做結合。然而，在現存的研究中，遊戲式學習系統的可用性並未被重視。基於此點，本研究將整合可用性進入到遊戲式學習系統的設計與發展中，更確切的說我們將採用兩個子研究來完成這個目標。在研究一中，我們將採用尼爾森的啟發式評估來檢驗一款現存的遊戲式學習系統。研究二中，我們將根據尼爾森的可用性標準來設計遊戲式學習系統。在研究一中，我們根據結果產生一系列的設計方針。而研究二將運用這套設計方針設計遊戲式學習系統。為了檢驗這套設計方針的可靠度，我們設計了兩款遊戲式學習系統。第一款包含基本的尼爾森的十項啟發式評估，而第二款除了這十項啟發式還包含我們另外擴充的第十一項啟發式評估，也就是豐富的遊戲元素。另外，進行了實證研究探討可用性是否在這樣的遊戲式學習系統中影響學習者的感觀。研究結果發現，考慮可用性以及遊戲元素的系統，最為被使用者推崇。本研究結果有助於深入了解如何建立一個可用性的遊戲式學習系統，進而達到能優化各種不同類型的遊戲學習系統的目標。

摘要(英)

Nowadays, game-based learning has become popular because it can provide many benefits for student learning. For example, students’ motivation can be enhanced and their learning effectiveness can be promoted. However, existing research has not paid much attention to improving the usability of game-based learning systems. In this vein, this dissertation aims to incorporate usability into the design of game-based learning systems by conducting two studies. Study One examines an existing game-based learning system based on Nielsen’s ten heuristics while Study Two implement solutions for improving the usability of game-based learning systems. A set of guidelines, which are produced based on the results of Study One, are further verified by proposed two game-based learning systems in Study Two. One game-based learning system is implemented based on Nielsen’s ten heuristics and the implementation of the other game-based learning is on the basis of Nielsen’s ten heuristics as well as a new heuristic, i.e., sufficient game elements. An empirical study is conducted to examine learners’ reactions to the proposed game-based learning systems. The results show that the proposed game-based learning system which considers usability and sufficient game elements is generally appreciated by students.

關鍵字(中)

★ 遊戲式學習
★ 尼爾森的啟發式評估
★ 可用性

關鍵字(英)

★ usability
★ Nielsen’’s heuristics
★ game-based learning

論文目次

中文摘要 i
English Abstract iii
Table of Contents v
List of Tables viii
List of Figures ix
Chapter 1 Introduction 1
1.1 Background 1
1.2 Aim and Objectives 3
1.3 Chapter outline 5
1.4 Summary 6
Chapter 2 Theoretical Background 7
2.1 Game-based Learning 7
2.1.1 To enhance students’ motivation 7
2.1.2 To promote learning effectiveness 8
2.1.3 To reach a high-level cognitive processing 10
2.1.4 Incorporated into Various Disciplines 10
2.2 From technology-orientated to usability-orientated 12
2.3 Usability Inspection 16
2.4 Summary 18
Chapter 3 Methodology Design 19
3.1 Introduction 19
3.2 Research Methods 19
3.3 Overview 19
3.4 Methodological Approaches 20
3.5 Conceptual Framework 20
3.6 Sample 22
3.7 Other Details 23
3.8 Summary 23
Chapter 4 Study One: Assessment of Usability 25
4.1 Participants 25
4.2 Game-based learning system 25
4.3 Interview Schedule 26
4.4 Experimental Procedures 28
4.5 Data Analysis 29
4.6 Results and Discussions 29
4.7 Development of guidelines 38
4.8 Summary 41
Chapter 5 Study Two: Implementation of Usability Guidelines 43
5.1 Design rationale of Game-based learning system 43
5.1.1 Design Rationale 43
5.1.2 Authoring Tool 53
5.2 Participants 54
5.3 Game-based learning systems 55
5.4 Design of a Questionnaire 56
5.5 Experimental Procedures 57
5.6 Data Analysis 57
5.7 Quantitative measurement 58
5.8 Qualitative assessment 59
5.9 Strengths 65
5.10 Mini games weaknesses 65
5.11 Structured Interview for H8 (Aesthetic and minimalist design) 66
5.12 Revised guidelines 68
5.13 Summary 72
Chapter 6 Conclusions 73
6.1 Main Conclusions 73
6.2 Limitations and Future work 74
References 77
Appendix: Questionnaire 89
個人資料 (Personal Information) 89
觀感問卷 (Perceptional Questionnare) 89

參考文獻

[1] Amaro, S., Viggiano, A., Di Costanzo, A., Madeo, I., Viggiano, A., & Baccari, M. E. (2006). Kalèdo, a new educational board-game, gives nutritional rudiments and encourages healthy eating in children: a pilot cluster randomized trial. European Journal of Pediatrics, 165, 630-635.
[2] Ang, C., Avni, E., & Zaphiris, P. (2008). Linking Pedagogical theory of computer games to their usability. International Journal on E-Learning, 7(3), 533-558.
[3] Bailey, F., & Moar, M. (2003). The VERTEX project: Designing and populating shared 3D virtual worlds in the primary (elementary) classroom. Computers & Graphics, 27(3), 353-359.
[4] Bedwell, W. L., Pavlas, D., Heyne, K., Lazzara, E . H., & Salas, E. (2012). Toward a Taxonomy Linking Game Attributes to Learning: An Empirical Study. Simulation Gaming. Advance online publication. doi: 10.1177/1046878112439444
[5] Bessiere, K., Seay, A. F., & Kiesler, S. (2007). The ideal elf: Identity exploration in world of warcraft. CyberPsychology & Behavior, 10(4), 530-535.
[6] Bos, N. D., Shami, S. S., & Naab, S. (2006). A globalization simulation to teach corporate social responsibility: Design features and analysis of student reasoning, Simulation and Gaming, 37(1), 56-72.
[7] Boyle, E., Connolly, T. M., & Hainey, T. (2011). The role of psychology in understanding the impact of computer games. Entertainment Computing, 2, 69-74.
[8] Buur, J., & Søndergaard, A. (2000). Video card game: an augmented environment for user centred design discussions. In Proceedings of DARE 2000, designing augmented reality environments. Elsinore: ACM.
[9] Cameron, B. & Dwyer, F. (2005). The effect of online gaming, cognition and feedback type in facilitating delayed achievement of different learning objectives. Journal of Interactive Learning Research, 16(3), 243-258.
[10] Chen, S. Y. & Macredie, R. D. (2002) Cognitive Styles and Hypermedia Navigation: Development of a Learning Model. Journal of the American Society for Information Science and Technology. 53(1), 3-15.
[11] Chen, S. Y., & Liu, X. (2011) Mining Students’’ Learning Patterns and Performance in Web-based Instruction: A Cognitive Style Approach. Interactive Learning Environments. 19(2), 179-192.
[12] Chen, S. Y., & Macredie, R. D. (2005). The assessment of usability of electronic shopping: A heuristic evaluation. International Journal of Information Management, 25, 516-532.
[13] Chen, S. Y., Magoulas, G. D. & Macredie, R. D. (2004). Cognitive Styles and Users’ Reponses to Structured Information Representation. International Journal on Digital Libraries. 4(2), 93-107.
[14] Cheng, C. H., & Su, C. H. (2012). A Game-based learning system for improving student’s learning effectiveness in system analysis course. Procedia - Social and Behavioral Sciences, 31, 669 - 675.
[15] Chittaro, L., & Ranon, R., (2007). Web3D technologies in learning, education and training: motivations, issues, opportunities. Computers & Education, 49(1), 3-18.
[16] Cohen, L., & Manion. (1995). Research Methods in Education 4th edn. Routledge, London .
[17] Conyer, M. (1995). User and usability testing—how it should be undertaken? Australian Journal of Educational Technology, 11, 38-51.
[18] de Freitas, & Oliver, M. (2006). How can exploratory learning with games and simulations within the curriculum be most effectively evaluated? Computers and Education, 46, 249-264.
[19] Delwiche, A. (2006). Massively multiplayer online games (MMOs) in the new media classroom. Educational Technology & Society, 9(3), 160-172.
[20] Denner, J., Werner, L., & Ortiz, E. (2012). Computer games created by middle school girls: Can they be used to measure understanding of computer science concepts? Computers & Education, 58, 240-249.
[21] Despotopoulos, I., Korinthios, G., Nasios, I., & Reisis, D. (1999). Developing an efficient model for evaluating WWW search engines. In Proceedings of the 17th IASTED International Conference, 87-89.
[22] Dickey, M. D. (2006). Game design narrative for learning: appropriating adventure game design narrative devices and techniques for the design of interactive learning environments. Educational Technology Research and Development, 54(3), 245–263.
[23] Dickey, M. D. (2011). Murder on Grimm Isle: The impact of game narrative design in an educational game-based learning environment. British Journal of Educational Technology, 42(3), 456-469.
[24] Dickey, M. D. (2012). Aesthetics and Game-Based Learning: Applying John C. Belland’s Connoisseurship Model as a Mode of Inquiry. Explorations in the Learning Sciences, Instructional Systems and Performance Technologies, 5(2), 101-112.
[25] Dieleman, H. & Huisingh, D. (2006). Games by which to learn and teach about sustainable development: Exploring the relevance of games and experiential learning for sustainability. Journal of Cleaner Production, 14, 837-847.
[26] Doty, J., Doty, M., & Dworkin, J. (2011). Web-Based Family Life Education: Spotlight on User Experience. Journal of Extension.
[27] Ebner, M., & Holzinger, A. (2005). Successful implementation of user-centered game based learning in higher education: An example from civil engineering. Computers & Education, 49, 873-890.
[28] Egenfeldt-Nielsen, S. (2005). Beyond edutainment: Exploring the educational potential of computer games. Unpublished dissertation. Copenhagen, Denmark: IT University of Copenhagen. Retrieved from http://www.itu.dk/people/sen/egenfeldt.pdf
[29] Fernández-Vara, C. (2011). From ‘Open Mailbox’ to Context Mechanics: Shifting Levels of Abstraction in Adventure Games. Paper presented at the 6th International Conference on Foundations of Digital Games, 131-138.
[30] Foster, A. (2008). Games and motivation to learn science: personal identity, applicability, relevance and meaningfulness. Journal of Interactive Learning Research, 19(4), 597-614.
[31] Fromme, J., & Unger, A. (2012). Computer Games and Digital Game Cultures: An Introduction. Computer Games And New Media Cultures, 1-28, doi: 10.1007/978-94-007-2777-9_1
[32] Gee, J. P. (2003). What video games have to teach us about learning and literacy. New York: Palgrave Macmillan.
[33] Gee, J. P. (2005). Learning by design: good video games as learning machine. E-Learning and Digital Media, 2(1), 5-16.
[34] Gentile, D.A., & Gentile, J.R. (2008). Violent video games as exemplary teachers: A conceptual analysis, Journal of Youth and Adolescence, 37(2), 127-141.
[35] Hatfield, D., & Shaffer, D. W. (2008). Reflection in professional play. International conference of the learning sciences (ICLS), Utrecht, Netherlands. Retrieved from http://epistemicgames.org/cv/papers/Hatfield_Shaffer_ICLS_08.pdf.
[36] Henderson, N. R. (2009). Managing Moderator Stress: Take a Deep Breath. You Can Do This! Marketing Research, 21(1), 28-29.
[37] Hsu, S. H., Lee, F. L., & Wu, M. C. (2005). Designing Action Games for Appealing to Buyers. CyberPsychology & Behavior. 8(6), 585-591. doi:10.1089/cpb.2005.8.585.
[38] Jonassen, D. H. (1999). Designing constructivist learning environments. In C. M. Reigeluth (Ed.), Instructional design theories and models, 2, 215-239. Mahwah, NJ: Erlbaum Associates.
[39] Karal, H., Kokoç, M., & Ayyıldız, U. (2010). Educational computer games for developing psychomotor ability in children with mild mental impairment. Procedia Social and Behavioral Sciences, 9, 996-1000.
[40] Kato, P. M. & Beale, I. L. (2006). Factors affecting acceptability to young cancer patients of a psychoeducational video game about cancer, Journal of Pediatric Oncology Nursing, 23 (5), 269-275.
[41] Ke, F. (2008). Computer games application within alternative classroom goal structures: cognitive, metacognitive, and affective evaluation. Educational Technology Research And Development, 56(5-6), 539-556. doi: 10.1007/s11423-008-9086-5
[42] Kinshuk. (1996). Computer-Aided Learning for Entry-Level Accountancy Students. PhD Thesis. De Montfort University, United Kingdom.
[43] Kinzie, M., & Joseph, D. (2008). Gender differences in game activity preferences of middle school children: Implications for educational game design. Educational Technology Research and Development, 56(5/6),
[44] Kirriemuir, J., & McFarlane, C. A. (2004). Literature review in games and learning. Bristol: Futurelab. Retrieved from www.futurelab.org.uk/resources/documents/lit_reviews/Games_Review.pdf.
[45] Krueger, R, A. (1988). Focus Groups; a Practical Guide for Applied Research. Sage Publications, Newbury Park.
[46] Kuk, K., Milentijević, I., Rančić, D., & Spalević, P. (2012). Pedagogical agent in Multimedia Interactive Modules for Learning - MIMLE. Expert Systems with Applications, 39, 8051-8058.
[47] Kulik, C., & Kulik, J. (1991). Effectiveness of computer-based instruction: an updated analysis. Computers in Human Behavior, 7, 75-94.
[48] Lee, K. C., & Lee, J. (2007). Programming physics softwares in Flash. Computer Physics Communications, 177(1-2), 195-198.
[49] Levesque, C., Copeland, K. J., Pattie, M. D., & Deci, E. L. (2010). Intrinsic and Extrinsic Motivation. International Encyclopedia of Education (Third Edition), 618-623.
[50] Levi, M. D., & Conrad, F. G. (1996). A heuristic evaluation of a world wide web prototype. Interactions, 3, 50-61.
[51] Lin, Y. L., & Tu, Y. Z. (2012). The values of college students in business simulation game: A means-end chain approach. Computers & Education, 58, 1160-1170.
[52] Ma, Y., Williams, D., & Prejean, L. (2012). Understanding the Relationships Among Various Design Components in a Game-Based Learning Environment. International Journal of Gaming and Computer-Mediated Simulations (IJGCMS). 4(1), 18.
[53] Malone, T. W., & Lepper, M. R. (1987) Making learning fun: A taxonomy of intrinsic motivations for learning, Aptitude, Learning and Instruction, 3: Conative and Affective Process Analysis, Lawrence Erlbaum, Hillsdale, NJ, 223-253.
[54] Markopoulos, P. & Bekker, M. (2003). “Editorial: Interaction design and children”. Interacting with Computers, 15, 141-149.
[55] Mayer, R. E., & Moreno, R. (2003). Nine ways to reduce cognitive load in multimedia learning. Educational Psychologist, 38, 43-52.
[56] Mayes, J. T., & Fowler, C. J. H. (1999). Learning technology and usability: a framework for understanding courseware. Interacting with Computers, 11(5), 485-497.
[57] Mayo, P., Donnelly, M. B., Nash, P. P., Schwartz, R. W. (1993), Student perceptions of tutor effectiveness in problem based surgery clerkship. Teaching and Learning in Medicine, 5(4), 227-233.
[58] Meluso, A., Zheng, M., Spires, H. A., & Lester, J. (2012). Enhancing 5th graders’ science content knowledge and self-efficacy through game-based learning. Computers & Education, 59, 497-504.
[59] Miller, L. M., Chang, C. I., Wang, S., Beier, M. E., Klisch, Y. (2011). Learning and motivational impacts of a multimedia science game. Computers & Education, 57, 1425-1433
[60] Mummalaneni, V., & Sivakumar, S. (2008). Effectiveness of a board game in fostering a customer relationship orientation among business students. Journal of Relationship Marketing, 7(3), 257-273.
[61] Nelson, B., & Erlandson, B. (2008). Managing cognitive load in educational multiuser virtual environments: Reflection on design practice. Educational Technology Research and Development, 56, 619-641.
[62] Nielsen, J. & Molich, R. (1990). Heuristic evaluation of user interfaces. In Proceedings of CHI 90, 249-256.
[63] Nielsen, J. & Norman, D. (2000). Web-site usability:Usability on the web isn’t a luxury. Information Week. http://www.informationweek.com/773/web2.htm.
[64] Nielsen, J. (1993). Usability engineering. Academic Press Professional, Cambridge, MA.
[65] Nielsen, J. (1994a). Enhancing the explanatory power of usability heuristics. Proceedings of CHI’94 conference. 152-158.
[66] Nielsen, J. (1994b). Heuristic evaluation. Usability inspection methods. New York:John.
[67] Nielsen, J. (1995). Technology transfer of heuristic evaluation and usability inspection. Paper presented at INTERACT’95 international conference on human-computer interaction.
[68] Nielsen, J. (1997). Discount usability for the Web. http://www.useit.com/papers/web_discount_usability.html.
[69] Petrie, H., & Power, C. (2012). What Do Users Really Care About? A Comparison of Usability Problems Found by Users and Experts on Highly Interactive Websites. CHI ’’12 Proceedings of the 2012 ACM annual conference on Human Factors in Computing Systems. 2107-2116.
[70] Poplin, A. (2012). Playful public participation in urban planning: A case study for online serious games. Computers, Environment and Urban Systems, 36(3), 195-206.
[71] Prensky, M. (2001). Digital game based learning. New York: McGraw-Hill.
[72] Provenzo, E. F. (1991). Video kids: Making sense of Nintendo. Cambridge, MA: Harvard University Press.
[73] Rastegarpour, H., & Marashi, P. (2012). The effect of card games and computer games on learning of chemistry concepts. Procedia - Social and Behavioral, 31, 597-601.
[74] Robertsont, J. (2012). Making games in the classroom: Benefits and gender concerns. Computers & Education, 59. 385-398.
[75] Sale, J. E. M., Lohfeld, L. H., & Brazil, K. (2002). Revisiting the Quantitative-Qualitative Debate: Implications for Mixed-Methods Research. Quality & Quantity, 36, 43-53.
[76] Salen, K. (2007). Gaming literacies: a game design study in action. Journal of Educational Multimedia and Hypermedia, 16, 301-322.
[77] Sawyer, B. & Smith, P. (2008). The second European conference on games-based learning, Universitat Oberta de Catalunya, Barcelona Spain, 16-17.
[78] Scanlon, E. (2000). How gender influences learners working collaboratively with science simulations. Learning and Instruction, 10, 463-481.
[79] Schnotz, W., & Grzondziel, H. (1999). Individual and co-operative learning with interactive animated pictures. European Journal of Psychology of Education, 14, 245-265.
[80] Sell, K., Lillie, T., & Taylor, J. (2008), Energy expenditure during physically interactive video game playing in male college students with different playing experience. Journal of American College Health, 56(5), 505-512.
[81] Shaffer, D. W. (2006). Epistemic frames for epistemic games. Computers & Education, 46(3), 223-234.
[82] Shafie, A., & Wan Ahmad, W. F. (2010). Design and Heuristic Evaluation of MathQuest: A Role-Playing Game for Numbers. International Conference on Mathematics Procedia Social and Behavioral Sciences, 8, 620-625.
[83] Shih, Y., Huang, P., Hsu, Y., & Chen, S. Y. (accepted). Incorporating Usability Criteria into the Development of Animated Hierarchical Maps. Educational Technology & Society.
[84] Shute, V. J., & Regian, J. W. (1993). Principles for evaluating intelligent tutoring systems. Journal of Artificial Intelligence in Education, 4(3), 245-271.
[85] Skiba, D. J. (2008). Games for Health, Nursing Education Perspectives, 29(4), 230-232.
[86] Sofaer, S. (2002). Qualitative research methods. Int J Qual Health Care, 14(4), 329-336
[87] Squire, K. D. (2002). Cultural framing of computer/video games. Game Studies: The International Journal of Computer Game Research, 1(2). Retrieved from http://www.gamestudies.org/0102/squire/
[88] Squire, K. D. (2006). From content to context: videogames as designed experiences. Educational Researcher, 35(8), 19-29.
[89] Stewart D. W., & Shamdasani P. N. (1990). Focus Groups: Theory and Practice. Sage, Newbury Park, California.
[90] Strobach, T., Frensch, P. A., & Schubert, T. (2012). Video game practice optimizes executive control skills in dual-task and task switching situations. Acta Psychologica, 140, 13-24.
[91] Sweetser, P., & Wyeth, P. (2005). Game flow: a model for evaluating player enjoyment in games. ACM Computers in Entertainment, 3(3), 1-24.
[92] Thomson Course Technology. (2007). Building the bridge to better microsoft office instruction: Report on a survey (White paper). Boston, MA: Thomson Course Technoogy/Cengage.
[93] Tüzün, H., Yilmaz-Soylu, M., Karakus, T., Inal, Y., & Kizilkaya, G. (2009). The effects of computer games on primary school students’ achievement and motivation in geography learning. Computers and Education, 52, 68-77.
[94] Vahed, A. (2008). The tooth morphology board game: an innovative strategy in tutoring dental technology learners in combating rote learning. Proceedings of the 2nd European conference on games-based learning (ECGBL), 16-17. Barcelona, Spain.
[95] Villalta, M., Gajardo, I., Nussbaum, M., Andreu, J. J. Echeverría, A., & Plass, J. L. (2011). Design guidelines for Classroom Multiplayer Presential Games (CMPG). Computers & Education, 57, 2039-2053.
[96] Virvou, M., & Katsionis, G. (2008). On the usability and likeability of virtual reality games for education: the case of VR-ENGAGE. Computers & Education, 50(1), 154-178.
[97] von Wangenheim, C. G., & Shull, F. (2009). To game or not to game? IEEE Software, 26(2), 92-94.
[98] von Wangenheim, C. G., Savi, R., & Borgatto, A. F. (2012). DELIVER! - An educational game for teaching Earned Value Management in computing courses. Information and Software Technology, 54, 286-298.
[99] Wideman, H. H., Owston, R. D., Brown, C., Kushniruk, A., Ho, F., & Pitts, K. C. (2007). Unpacking the potential of educational gaming: a new tool for gaming. Simulation and Gaming, 38(1), 10-30.
[100] Wijers, M., Jonker, V., & Kerstens, K. (2008). MobileMath: the phone, the game and the math. In Proceedings of the 2nd European conference on games-based learning (ECGBL), 16-17. Barcelona, Spain.
[101] Wild, P., & Macredie, R. (2000). Usability evaluation and interactive systems maintenance. In Proceedings of OZCHI 2000: Interfacing reality in the new millennium. 143-149.
[102] Wright, W. (2006). Dream Machines, Wired Magazine, 14(04), Retrieved from http://www.wired.com/wired/archive/14.04/wright.html
[103] Yang, Y. T. C. (2012). Building virtual cities, inspiring intelligent citizens: Digital games for developing students’ problem solving and learning motivation. Computers & Education, 59, 365-377.
[104] Yeung, T. A., & Law, R. (2004). Extending the modified heuristic usability evaluation technique to chain and independent hotel websites. International Journal of Hospitality Management, 23(3), 307-313.
[105] Zwikael, O., & Gonen, A. (2007). Project execution game (PEG): Training towards managing unexpected events. Journal of European Industrial Training, 31(6), 495-512.

指導教授

陳攸華(Sherry Y. Chen)

審核日期

2012-7-26

推文