TY - JOUR
T1 - The development and evaluation of an augmented reality-based armillary sphere for astronomical observation instruction
AU - Zhang, Jia
AU - Sung, Yao Ting
AU - Hou, Huei Tse
AU - Chang, Kuo En
N1 - Funding Information:
This research was supported by the National Science Council (NSC), Taiwan , under Grant nos. NSC 102-2511-S-003-013-MY3 , 102-2511-S-011-001-MY3 , 100-2628-S-011-001-MY4 , the “Aim for the Top University Project” of National Taiwan Normal University (NTNU) , and the International Research-Intensive Center of Excellence Program of NTNU and NSC, Taiwan , under Grant no. NSC 102-2911-I-003-301 .
PY - 2014/4
Y1 - 2014/4
N2 - Based on kinesthetic learning style theory and interviews regarding teachers' experiences applying traditional astronomy teaching methods, a mobile digital armillary sphere (MDAS) using augmented reality (AR) was developed for use during astronomical observation instruction. The MDAS enables visual processes and limb movements similar to those that would occur in actual outdoor experiences to be employed in the classroom, thereby overcoming existing instructional limitations. A quasi-experimental design method was adopted, and 200 fifth-grade students were selected as participants. The use of the MDAS in astronomical observation courses affected students' learning effectiveness and interest. The experimental results indicated that using the MDAS system during outdoor observation activities effectively enhanced both the students' learning of astronomical observation content and their performance of astronomical observation skills. In addition, use of the MDAS effectively increased students' interest in astronomical observations and learning, which had a substantial effect on retention.
AB - Based on kinesthetic learning style theory and interviews regarding teachers' experiences applying traditional astronomy teaching methods, a mobile digital armillary sphere (MDAS) using augmented reality (AR) was developed for use during astronomical observation instruction. The MDAS enables visual processes and limb movements similar to those that would occur in actual outdoor experiences to be employed in the classroom, thereby overcoming existing instructional limitations. A quasi-experimental design method was adopted, and 200 fifth-grade students were selected as participants. The use of the MDAS in astronomical observation courses affected students' learning effectiveness and interest. The experimental results indicated that using the MDAS system during outdoor observation activities effectively enhanced both the students' learning of astronomical observation content and their performance of astronomical observation skills. In addition, use of the MDAS effectively increased students' interest in astronomical observations and learning, which had a substantial effect on retention.
KW - Elementary education
KW - Improving classroom teaching
KW - Interactive learning environments
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U2 - 10.1016/j.compedu.2014.01.003
DO - 10.1016/j.compedu.2014.01.003
M3 - Article
AN - SCOPUS:84893322472
SN - 0360-1315
VL - 73
SP - 178
EP - 188
JO - Computers and Education
JF - Computers and Education
ER -