Development of a virtual butterfly ecological system based on augmented reality and mobile learning technologies

AbstractA campus butterfly garden is a useful teaching resource for studying insect ecology because students can learn about a butterfly’s life cycle and become familiar with its habitual behavior by breeding and observation activities. However, it requires professional construction and maintenance for sustainable development, so very few schools can afford to own a butterfly garden. In this study, the augmented reality and mobile learning technologies have been used to develop a virtual butterfly ecological system by combining with campus host plants and virtual breeding activities. Students can use smart phones or tablet PCs to breed virtual butterflies on host plants and observe their life cycles at different growing stages. Using the available space in campus, a virtual butterfly garden can also be created as a greenhouse where students are able to observe different species of butterflies using the tracking telescope and catch a butterfly to obtain its information by touch-screen control. The virtual butterfly ecological system can increase the learning motivation and interest of students through virtual breeding and observation activities, so it is a suitable assistant tool for science education. A teaching experiment has been conducted to investigate students’ learning effectiveness and attitudes after using the system, and the results show that using the virtual butterfly ecological system can improve their learning effectively.

[1]  Jie-Chi Yang,et al.  Wireless and mobile technologies to enhance teaching and learning , 2003, J. Comput. Assist. Learn..

[2]  Ivan Poupyrev,et al.  The MagicBook - Moving Seamlessly between Reality and Virtuality , 2001, IEEE Computer Graphics and Applications.

[3]  Gwo-Jen Hwang,et al.  Development and instructional application of u-library on butterfly and wetland ecology for context-aware ubiquitous learning , 2010, Int. J. Mob. Learn. Organisation.

[4]  Alan Levine,et al.  Key Emerging Technologies for Elementary and Secondary Education. , 2010 .

[5]  R. Evans,et al.  Reliability of the "Draw-a-Man" test. , 1975 .

[6]  Chris Dede,et al.  Immersive Interfaces for Engagement and Learning , 2009, Science.

[7]  William Noah Schilit,et al.  A system architecture for context-aware mobile computing , 1995 .

[8]  Carl Machover,et al.  Virtual reality , 1994, IEEE Computer Graphics and Applications.

[9]  Jyh-Chong Liang,et al.  Current status, opportunities and challenges of augmented reality in education , 2013, Comput. Educ..

[10]  Yuh-Shyan Chen,et al.  A mobile learning system for scaffolding bird watching learning , 2003, J. Comput. Assist. Learn..

[11]  A. Collins,et al.  Situated Cognition and the Culture of Learning , 1989 .

[12]  N. Songer,et al.  Student Motivation and Internet Technology: Are Students Empowered to Learn Science? , 2000 .

[13]  Manuel Castro,et al.  New technology trends in education: Seven years of forecasts and convergence , 2011, Comput. Educ..

[14]  Josh Sheldon,et al.  Augmenting your own reality: student authoring of science-based augmented reality games. , 2010, New directions for youth development.

[15]  Ronald Azuma,et al.  A survey of augmented reality" Presence: Teleoperators and virtual environments , 1997 .

[16]  R. Likert “Technique for the Measurement of Attitudes, A” , 2022, The SAGE Encyclopedia of Research Design.

[17]  Hui-Yin Hsu,et al.  Learning with Web Tools, Simulations, and Other Technologies in Science Classrooms , 2010 .

[18]  Bill N. Schilit,et al.  Context-aware computing applications , 1994, Workshop on Mobile Computing Systems and Applications.

[19]  Chris Dede,et al.  Affordances and Limitations of Immersive Participatory Augmented Reality Simulations for Teaching and Learning , 2009 .

[20]  Jang-Ping Sheu,et al.  A mobile butterfly-watching learning system for supporting independent learning , 2004, The 2nd IEEE International Workshop on Wireless and Mobile Technologies in Education, 2004. Proceedings..

[21]  Che-Ming Chen,et al.  A Mobile Learning Module for High School Fieldwork , 2010 .

[22]  Ronald Azuma,et al.  A Survey of Augmented Reality , 1997, Presence: Teleoperators & Virtual Environments.

[23]  Barney Dalgarno,et al.  What are the learning affordances of 3-D virtual environments? , 2010, Br. J. Educ. Technol..

[24]  Shih-Chung Kang,et al.  Use of Tangible and Augmented Reality Models in Engineering Graphics Courses , 2011 .