• Journal of Convergence for Information Technology
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• v.10 no.12
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• pp.100-109
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• 2020

At the beginning of the discussion of early childhood software education, the study was conducted to apply an early childhood software education program based on computational thinking and analyze the effects of early childhood software education programs. In this study, a balanced distribution of software education, content elements and computing thinking elements was applied to achieve the ultimate goal of software education, which is to improve computing thinking. As early as possible, it's a good idea to start teaching to remind themselves how to think through experiences and play activities and to discover problems and find solutions by themselves. In the analysis results, early childhood software education program we applied affected positive impacts on software education effect, computational thinking of early childhood. Based on these results, a program was proposed for systematic early childhood software education that effective develope of computational thinking.

• Journal of Convergence for Information Technology
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• v.11 no.10
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• pp.151-158
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• 2021

The purpose of this paper is to examine the concept of computational thinking in an easy-to-understand way for non-computer majors. First, It is necessary to expand from the problem-solving perspective to the perspective of problem discovery and creation ability, and establish it as a thinking ability that can cultivate human-like thinking, that is, creative thinking. Second, the concept of computational thinking can be viewed not only in the cognitive aspect but also in the emotional motive and attitude aspect. Third, systematic design of teaching methods is needed based on the expansion of the concept to computational thinking that helps learners to improve their reflective ability. It is expected that the results of this study will serve as basic research for various attempts in terms of the purpose and teaching method of computational thinking education in the future.

• Journal of Digital Convergence
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• v.15 no.7
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• pp.1-12
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• 2017

The purpose of the study was to develop a teaching strategy using metacognition and to investigate its effects on enhancing students' creative problem solving skills (i.e. creative thinking skills and critical thinking skills), metacognitive skills. With reference to previous studies, the researcher developed self-questionnaire to enhance metacognition. To achieve this aim, a learning strategy enhancing metacognition was developed and applied to design a creative problem solving instruction program. The strategy was implemented to university students over 9 weeks. The same test was used in two groups. To analyze the data statistically, ANCOVA was used. Results indicated that the experimental group presented statistically meaningful improvement in creative thinking skills, especially identifying a problem, making hypothesis, and controlling of variables(p<.05). Also, the strategy contributed to improve critical thinking skills, especially in inquiry process of recognizing problems, making hypothesis(p<.05). In addition, this strategy also helped students' metacognitive skills(p<.05). It was effective to improve thinking skills. It will contribute to improve convergence thinking skills.

• Journal of The Korean Association of Information Education
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• v.23 no.5
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• pp.469-480
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• 2019

One of the goals of the new 2015 revised curriculum is to cultivate the creativity of students who will live in the era of the Fourth Industrial Revolution to create new things through diverse ideas and challenges based on basic learning skills. Accordingly, in order to solve the given problems rationally, the convergence problem solving ability that can process and utilize various areas of knowledge and information is becoming important. Therefore, in this study, we designed the integrative education using a 3D printer based on Tinkercad modeling and applied it to the class to investigate the effect on the improvement of computing thinking ability of elementary school students. To verify the contents of the study, two classes of 25 sixth-grade elementary school students were divided into an experimental group and a controlled group. For the experimental group, 12 classes of convergence education programs using a 3D printer were applied for about three months, and the same amount of general curriculum was conducted for the control group. After that, the t-tests were carried out using the pre-post test to measure the effectiveness of the computational thinking ability. After the application of the program, the experimental group showed statistically significant improvement in computational thinking ability, but the controlled group showed no statistically significant difference. The results show that convergence education using the Tinkercad modeling-based 3D printer has a positive effect on the improvement of computing thinking ability of elementary school students.

• The Journal of Korean Association of Computer Education
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• v.19 no.1
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• pp.27-39
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• 2016

It is necessary for us to be equipped with problem-solving ability, logical thinking ability, and convergence thinking ability in the digital information age. To have these abilities, modern people in the $21^{st}$ century should be educated to develop the computational thinking ability. However, it is difficult to cultivate the computational thinking ability in current computer education curriculum. Therefore, this paper aims to propose a programming-based computer educational program to make students better understand the principles of computer science and enhance student's computational thinking ability escaping from current fragmentary and limited computer education. In order to verify the effectiveness of the educational program, students in total 42 middle school (22 students in 1st and 2nd grades and 20 in 3rd grade) were applied to the educational program for twenty-four hours on 12 weeks and then we obtained a positive result that might bring improvement on the logical thinking ability and creative problem-solving skills. As a result, this study presents the possibility of its field applications of computational thinking-based programming learning and analyzed the effectiveness. therefore, it has a notable point of presenting the development direction of a variety of education programs for enhancing the computational thinking in the future.

• Journal of the Korean Chemical Society
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• v.59 no.2
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• pp.164-178
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• 2015

The purpose of this study was to design a teaching and learning method conductive to the development of creative thinking skills and investigate its effects. It has been developed integrated mind map with feature of visualizing the divergent thinking to the aspects of Science (S), Technology (T) & Engineering (E), Arts (A), Mathematics (M). Integrated mind map can be divided into four types of STEAM type, STEA type, STEM type, STE type depending on the category of key words in the first branch. And Integrated mind map can be divided into three levels of guided, intermediate, open depending on the teacher's guide degree. And also integrated mind map activities were carried out in the form of group, class share as well as individual. This study was implemented during a semester and students in experiment group experienced individual-integrated mind map activity 10 times, group-integrated mind map activity 10 times, class share-integrated mind map activity 3 times. The results indicated that the experimental group presented statistically meaningful improvement in creative thinking skills (p<.05). And there was a statistically meaningful improvement in fluency, flexibility, originality as a sub-category of creative thinking skills(p <.05). Also creative thinking skills are not affected by the level of cognitive, academic performance, gender (p<.05). In conclusion, it was found that 'integrated mind map activity' improved student's creative thinking skills. There was no interaction effect about creative thinking skills between the teaching strategy and cognitive level, achivement, gender of those students.

• Journal of Gifted/Talented Education
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• v.23 no.6
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• pp.981-1001
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• 2013

Many studies on convergence education have been done in the field of gifted education to meet the social needs for people of convergence talent and to adjust our education system to the paradigm shift. However, the number of studies on convergence gifted education is not sufficient enough and most of them are mainly on science and art. So, this study reviews the previous studies on gifted education involving convergence, and discusses the pressing issues to address for the development of convergence gifted education in korea. Also, the direction of the further research is introduced. There is an agreement that the definition of the convergence gifted and convergence gifted education needs to be clarified, and further researches have to be conducted to establish a basis for defining integrated thinking ability. Furthermore, it is suggested that the contents for convergence gifted education should be developed accommodating individual differences, and a theory-based approach to creating convergence gifted education programs is proposed. On top of that, the needs for the studies on how to strengthen the educational capability of the teachers are discussed.

• Proceedings of the Korean Society of Computer Information Conference
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• 2018.01a
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• pp.223-226
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• 2018

2015 개정 교육과정은 바른 인성을 갖춘 창의융합형 인재를 양성하는 데에 교육과정 구성의 중심을 두고, 교육과정 구성에 다양한 학생 참여형 수업을 활성화하여 자기주도적 학습능력을 기르고 학습의 즐거움을 경험하도록 하고 있다. 소프트웨어 교육을 통해 이를 실현할 수 있는 방법은 재미있고 흥미를 끄는 학습내용의 구성과 학습 방법이라 본다. 이에 학습자들의 흥미를 끄는 앱을 제작함에 유대인의 교육방식인 하브루타를 적용하여, 학습자 참여 중심의 자기주도 학습을 설계하고 이를 통해 컴퓨팅 사고력을 신장시키고 바른 인성을 갖춘 창의 융합형 인재를 양성할 수 있는 하나의 방법을 제안하고자 한다.

• Proceedings of the Korea Contents Association Conference
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• 2013.05a
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• pp.405-406
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• 2013

인터넷이 등장한 이후 지난 20년 사회 전반의 변화는 심오했다. 앞으로 20년 후 우리가 어떤 세상에 살고 있을지 그 누구도 예측하기 어렵다. 지수 함수적으로 성장하는 정보통신기술의 파워가 2030~2045년에 인간의 지능을 초월할 거라고 한다. 국내 대학들의 비전과 목표설정에 따른 교양교과목의 개발 및 운영 실태를 분석한다. 스마트 사회에 대학 교양교육이 지향해야 할 '창조적 사고력', '비판적 사고력', '문제 해결능력', 창의적 리더를 키울 수 있는 융합 교양교과목 개발 및 운영이 필수적이다.

• Journal of Convergence for Information Technology
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• v.9 no.9
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• pp.166-174
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• 2019

This study aims to determine factors influencing pre-service early childhood teachers' perception of technology equipment. Online survey is conducted to 289 students majoring in Early Childhood Education and Child Development located in city A, B, and C. SPSS 25 program analyzes 273 answers. The results show that technology education experience in high school influences TPACK and TPACK's sub-factor technology knowledge; and that technology education experience in college (university?) has a positive influence on computational thinking, perception of technology, TPACK, and TPACK's sub-factors-technology knowledge, early childhood education knowledge, and TPACK knowledge. In addition, perception of technology equipment shows high correlation with TPACK and computational thinking. Indeed, computational thinking and TPACK have 42.3% explanatory power on perception of technology equipment. The results imply that education system supporting computational thinking and TPACK should be prioritized for pre-service early childhood teacher to use technology effectively in the field.