• The Journal of the Korea Contents Association
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• v.10 no.9
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• pp.487-495
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• 2010

Online content evaluation standards were suggested in order to improve quality of education for informatics gifted students in this paper. This evaluation standards were developed by thinking and learning style and characteristics of gifted students which were presented in preceding research. The evaluation standards were reviewed through reliability analysis as well as analysis of the characteristics of items and validity analysis by experts of informatics gifted student education sector. In the result of analysis, reliability of items has been very reliable. Level of difficulty and discrimination about the characteristics of items has also shown satisfactory value. Developed the evaluation standards has 5 evaluation categories such as "talent development", "Interaction", and others. It also has 11 evaluation factors and 40 evaluation items. The online content evaluation standards can be helpful and useful in order to develop qualitative online contents and select online contents for informatics gifted student.

• The Journal of Korean Association of Computer Education
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• v.17 no.3
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• pp.41-51
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• 2014

Informatics gifted education institutions have made multi-faceted efforts to encourage students to do creative activities which can be extended lasting. However, research about gifted student's creative activities is yet incomplete, and most of the research has only focused on their cognitive abilities. Therefore, there is a limit to providing creative activity curricula that reflect the characteristics of informatics gifted students. This study assessed the creative products achievement of 56 informatics gifted elementary school students' and comprehensively analyzed the results with affective and environmental variables. The result is that the achievement of creative products was higher when the intrinsic motivation was found to be higher. Parents' support or extrinsic motivation did not differ significantly.

• Journal of The Korean Association of Information Education
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• v.20 no.2
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• pp.179-188
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• 2016

This study is to analyze how is the gifted in Informatics student's cognitive features different from others and present standard for screening. So ultimately, I hope this study contribute to the promising perspective and curriculum development for gifted elementary school students in information science. And hopefully give an Implications for the way forward as an information special education by study of problem solving skills that underlie the learning ability. These skills are being able to collect, analyze, synthesize and apply the informations so that make sustainable development possible. Therefor, the ultimate goal of this study is to provide better education for the gifted in Informatics student's basic learning skills.

• Journal of the Korea Society of Computer and Information
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• v.19 no.12
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• pp.369-384
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• 2014

Since the start of gifted education in 2002, educational support system has now been established, and sufficient growth in quantitative aspects has been achieved in Korea. On the other hand, they report that there are insufficient points in terms of education quality. In other words, most of the gifted education simply expands knowledge by prior-learning. In order to improve the quality of gifted education, they should enhance critical-thinking and creativity able to apply interdisciplinary principles or phenomena for solving problems. In this study, we designed and developed a convergent teaching-learning materials based on the concept of integrated education, which explore the process that basic logic operations such as AND, OR, XOR do the role of computer cells. A survey result showed that student satisfaction(usefulness, understanding, interest) of the materials is significantly higher than that of other traditional learning topics, and the design intent was met.

• The Journal of Korean Association of Computer Education
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• v.16 no.5
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• pp.9-16
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• 2013

Computational thinking is an ability to resolve problems that may be applied to the various real world problems and is regarded as the core of computer science. Computational thinking may be improved through experiences of analyzing problems and of selecting, applying, and modeling strategies appropriate for problem-solving. In order to enhance computational thinking of learners, it is important to provide experiences of solving various problems. This study designed puzzle based learning in order to educate learners principles of problem solving, let them have experiences of interest and insight, and provide them with problem solving experiences. The puzzle questions used for learning were classified into six types - constraints, optimization, probability, statistics, pattern recognition, and strategies. These questions were applied to Informatics gifted elementary students and, after their education, their computational thinking and problem solving inventory significantly improved.