An Application of Multivariate Generalizability in Selection of Mathematically Gifted Students
Sungyeun Kim 1  
,  
 
 
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1
Incheon National University, REPUBLIC OF KOREA
2
Southern Methodist University, USA
CORRESPONDING AUTHOR
Sungyeun Kim   

Seoul National University, 611Ho 10-1Dong Gwank-ro1, Gwanak-gu, 151-749 Seoul, Korea (South)
Publish date: 2016-06-29
 
EURASIA J. Math., Sci Tech. Ed 2016;12(9):2587–2598
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ABSTRACT
Background:
Valid and reliable identification of gifted students is one of the most important issues in gifted education. Identification of gifted students commonly includes several instruments with their own relative weight. In many cases, however, the selection decision is arbitrarily made based on national policy or a priori judgment, not based on educational measurements from empirical research. Hence this study determines error sources and the effects of each error source, and investigates optimal weights of composite score in teacher recommendation letters and self-introduction letters using multivariate generalizability theory.

Material and methods:
Teacher recommendation letters and self-introduction letters were collected from 90 students applying to the gifted education program in one science education institute for the gifted in Korea.

Results:
First, error sources for the students were relatively large. It suggests that the score variances explained the differences in the giftedness among the students. Second, based on the maximum generalizability coefficient for teacher recommendation letter and self-introduction letter, the optimal weight should adjust to 0.7:0.3 from 0.5:0.5 in the original institution weights.

Conclusions:
These results are necessarily specific to the selection assessment instruments considered in this study. However, the methodology applied can be utilized in other selection instruments developed by many institutions.

eISSN:1305-8223
ISSN:1305-8215