Interactive Video Game Platform for Game-Based Learning 239 Table 2.. © Springer-Verlag Berlin Heidelberg 2008 Developing the Historical Culture Course by Using the Ubiquitous Game-Base
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Table 2 Scores of questions with percentage
Q1 25.69% 46.79% 19.27% 5.50% 2.75% 98.20%
Q2 10.09% 61.47% 24.77% 3.67% 0.00% 98.20%
Q3 8.26% 49.54% 38.53% 3.67% 0.00% 98.20%
Q4 12.84% 53.21% 28.44% 4.59% 0.92% 98.20%
Q5 7.34% 45.87% 33.03% 11.93% 1.83% 98.20%
Q6 18.35% 44.95% 24.77% 8.26% 3.67% 98.20%
Q7 13.76% 47.71% 25.69% 9.17% 3.67% 98.20%
Q8 16.51% 38.53% 36.70% 7.34% 0.92% 98.20%
Q9 12.84% 55.05% 22.94% 8.26% 0.92% 98.20%
AVG 13.97% 49.24% 28.24% 6.93% 1.63%
STDEV 5.67% 6.63% 6.52% 2.79% 1.43%
Table 3 Scores of questions with accumulated percentage
two questions are Q5 and Q8 Users are not satisfied with time of switches between video scenes and other media, the delay may be improved for better using experience Q8 indicates the drag and drop operation are not intuitional enough to users Meaningful interactions are required for combining users and learning scenarios The average of
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the 9 questions higher than score 4 is 63.20%, it means over 60% of users agree the per-formance of the learning platform
7 Conclusion
A platform use interactive video technologies is implemented to design video games for educational purposes Courses designers can easily produce contents with game factors by this authoring tool Video segments are used for scenarios in the VGBL platform These scenarios can be generated by cutting from films Comparing to 3D scenarios, it’s a cheaper way to produce game scenarios Players can make interaction with objects edited by the authoring tool and get feedback or switch to other scenar-ios Playing such games is attractive to students Students can get experience and knowledge by making interaction and decisions in game play
References
1 Bing, J., Dubreuil, J., Espanol, J., Julia, L., Lee, M., Loyer, M., Serghine, M.: MiTV: re-thinking interactive TV In: The Proceedings of Seventh International Conference on Vir-tual Systems and Multimedia, Berkeley, pp 25–27 (2001)
2 Cesar, P., Vierinen, J., Vuorimaa, P.: Open graphical framework for interactive TV In: The Proceedings of Fifth International Symposium on Multimedia Software Engineering, Taichung, pp 10–12 (2003)
3 Champion, E.: Meaningful interaction in virtual learning environments In: The Proceed-ings of the second Australasian conference on Interactive entertainment, Sydney, pp 41–45 (2005)
4 Lumbreras, M., Sanchez, J.: Hyperstories: a model to specify and design interactive educa-tional stories In: The Proceedings of XVII Internaeduca-tional Conference of the Chilean Com-puter Science Society, pp 135–146 (1997)
5 Martinez-Ortiz, I., Moreno-Ger, P., Sierra, J.L., Fernandez-Manjon, B.: Production and Maintenance of Content-Intensive Videogames: A Document-Oriented Approach In: The Proceedings of Third International Conference on Information Technology: New Genera-tions, pp 118–123 (2006)
6 Muda, Z., Mohamed, R.E.K.: Adaptive User Interface Design in Multimedia Courseware In: The Proceedings of Information and Communication Technologies, pp 196–199 (2006)
7 Natvig, L., Line, S.: Age of computers: game-based teaching of computer fundamentals In: The Proceedings of ninth SIGCSE conference on Innovation and technology in com-puter science education (2004)
8 Moreno-Ger, P., Martínez-Ortiz, I., Sierra, J.L., Fernández-Manjón, B.: A Content-Centric Development Process Model IEEE Computer 41(3), 24–30 (2008)
9 Shim, S.S.Y., Lee, Y.J.: Interactive TV: VoD meets the Internet IEEE Computer 35(7), 108–109 (2002)
10 Zhang, L.J., Chung, J.Y., Liu, L.K., Lipscomb, J.S., Zhou, Q.: An integrated live interac-tive content insertion system for digital TV commerce In: the Proceedings of Fourth In-ternational Symposium on Multimedia Software Engineering, pp 11–13 (2002)
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© Springer-Verlag Berlin Heidelberg 2008
Developing the Historical Culture Course by Using the Ubiquitous Game-Based Learning Environment
Jui-Hung Chen1, Te-Hua Wang2, Wen-Chih Chang3, and Louis R Chao1
1 Department of Computer Science and Information Engineering,
Tamkang University, Taiwan, R.O.C
895410172@s95.tku.edu.tw
2
Department of Information Management Chihlee Institute of Technology, Taiwan, R.O.C
tehua@mail.chihlee.edu.tw
3
Department of Information Management, Chung Hua University, Taiwan, R.O.C
nbird@mail.mine.tku.edu.tw
Abstract With the advance of information technologies, it is much easier to
provide and construct various powerful e-learning platforms Nevertheless, such kinds of e-learning platforms are available worldwide, but the percentage of us-ing these platforms is still unsatisfactory The main reason lies in the learnus-ing content and learning activities couldn’t attract learner Accordingly these e-learning platforms are not able to fit the needs of either learners or instructors
In this paper, we proposed an integrated learning environment called U-GBL (Ubiquitous Game-Based Learning) system We used the technologies in inter-active video, GPS (Global Positioning System), GIS (Geographic Information System) and RFID (Radio Frequency Identification) to construct the interactive game-based learning environment Learners could utilize PPC (Pocket PC) to have the game-based learning activities anytime and anywhere And we also demonstrated an example of the historical culture course content to explain the gaming scenario in our learning environment We hope this U-GBL learning platform could help to enrich the learning motivation and to improve the learn-ing efficiency
Keywords: GBL, Ubi-Media, Game Design, Game Authoring Tool
1 Introduction
Nowadays, more and more researchers have discussed on how to make e-learning systems more powerful and practicable One essential issue lies in the attraction of learning content [1, 2] They pointed out gaming implied some important elements, such as mission challenge, rewards and various fantasy content styles, to improve the learners’ learning motivation Another work [3] examines the behavior between gam-ing and learngam-ing And they found the learngam-ing course combined with game elements will be helpful for learners to achieve the course objective quickly In [4], the authors proposed a game style learning content on learning program language By using password game, jigsaw puzzle game and random number game styles, they tired to train the learners’ programming logical thinking and work flow control
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Moreover, with the maturity of ubiquitous multimedia technologies, such as GPS (Global Positioning System), GIS (Geographic Information System) and RFID (Radio Frequency Identification) technologies, the location-based informa-tion is easier to acquire, such as the posiinforma-tion of a particular event and the related information Such information could be referred while making some content-aware decisions Some researches claimed that this kind of learning style will be helpful for improving learners in mind thinking, memorizing and understanding of learn-ing contents If we could combine the ubiquitous multimedia technologies to enrich the learning motivation, it would be a great help to improve the learning performance in such learning environments For instance, the works in [5] and [6] utilized GPS/GIS and RFID technologies with mobile device to construct a lan-guage learning system with context-aware concept Such systems are based on mobile device system using the GPS/GIS and RFID to calculate learner’s indoor position In gaming phase, learners could collect the data for assigned missions via mobile devices in any particular position The objective of this system targets at letting learners solve problem in their daily-life by utilizing the knowledge learned
in school to In [7], the authors utilized the mobile devices, RFID equipments and ubiquitous learning processing technology to construct the ubiquitous learning environment Learners could have learning activities indoors and outdoors The mProducer system proposed in [8] aims at building the personal experience data-sets by using the mobile device, GPS and video processing technologies Another work stated in [9] introduced the location-aware concept gaming model by using the mobile device, wireless and GPS technologies In [10], the authors proposed the TIP (Tourist Information Provider) system by using the mobile device and GPS system It provides the travel related information to users In [11], the authors pro-posed a prototype model of M-learning Some significant points for learning con-tent design, learning portfolio design and learning target setting In [12], the authors proposed the AR (Augmented Reality) simulation gaming system which utilized the mobile device and GPS system This system is called Environmental Detectives, and its target focuses on water pollution Team Learners could investi-gate the status of the water pollution in a particular place and try to find out the possible solution Another gaming system is proposed in [13] The authors pro-posed the BuinZoo game-based learning system which utilized the mobile device and the map system Learners could learn the evolution of creatures by observing and affecting the evolution process In [14], the authors indicate the concept of mobile gaming environment in the future The system integrates the AR and MR (Mixed reality) human interaction architecture which utilizes the mobile device, GPS system and RFID technology Gamers could do the gaming phase impres-sively in the real environment by interacting with other gamers
According to aforementioned research, we would like to build an integrated learn-ing system which allows learners to learn by gamlearn-ing Our proposed learnlearn-ing system utilizes the mobile technologies to provide more efficient game-based learning envi-ronment, and we called this integrated learning system as U-GBL (Ubiquitous Game-Based Learning) system
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The remainder of this paper is organized as follows In Section 2, we will illustrate our U-GBL system architecture and its work flow The related system modules will be demonstrated in Section 3 In Section 4, we will introduce the sample of the game con-tent In Section 5, we will introduce how to design the course assessment content for our U-GBL system Finally, the conclusion and the future work are shown in Section 6
2 U-GBL Environment and Workflow
Our proposed U-GBL system architecture includes three main elements, the authoring tool, the learning management system (LMS) and the game server Instructors could design the game course content with the authoring tool After finishing the game course editing, the related course will send to the backend LMS When learner util-ized PPC (Pocket PC) to get the connection from the game server, the server will connect to the LMS to get the learner’s learning portfolio Then related course mate-rial will be loaded by game server for game course deployment At last, learners could enjoy or continue the game-based learning activities
Our U-GBL environment overview concept is illustrated in Fig 1 Instructors could utilize the predefined templates to design the interactive video course, and put game elements in any particular video segment These elements are comprised of normal and hidden game elements The normal game elements are mainly presented
in game mission mode to delivery some important concepts to learners The hidden game elements represent some integrated key points for rewarding Those integrated key points might be some particular normal game elements and some particular key values, such as the position information stored in a RFID tag Course designers could setup these RFID tags to make learners to do their learning activities The system work flow is shown in Fig 2
Fig 1 U-GBL environment overview Fig 2 Game Authoring Workflow
Learners could start their learning activities in the game lobby by selecting the in-teractive video course they want After course finished, some hidden game mission will be available in screen LMS will record the status and assign these hidden game