• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2008.08a
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• pp.117-120
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• 2008

지식정보화 사회에서는 학생들의 논리적 사고력과 탐구력, 문제해결력, 창의성을 갖춘 인재가 필수적이며 이러한 인재를 키우는 것이 한 나라와 사회의 미래를 결정 짖는 핵심적이 요소이다. 본 연구에서는 창의력과 문제해결력의 요소들을 분석하고 초중등학교에서의 로봇을 이용하여 학생들의 창의력 향상을 위한 동향을 분석한다. 그리고 대학에서 로봇 이용 교육에 대한 현황을 분석하고 로봇이용 방법론을 제안한다.

• Journal of Gifted/Talented Education
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• v.24 no.2
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• pp.271-288
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• 2014

This study aimed to investigate the perception of earth system thinking of science gifted students in future problem solving (FPS) in relation to climate changes. In order to this study, the research problem associated with climate changes was developed through a literature review. The thirty seven science gifted students participated in lessons. The ideas in problem solving process of science gifted students were analyzed using the semantic network analysis method. The results are as follows. In the problem solving processes, science gifted students are 'changes of the sunlight by water layer', 'changes of the Earth's temperature', 'changes of the air pressure', ' change of the wind and weather' were represented in order. On other hand, regard to earth system thinking for climate changes, while science gifted students were used sub components related to atmospheres frequently, they were used sub components related to biosphere, geosphere, and hydrosphere a little. But, the analytical results of the structural relationship between the sub components related to earth system, they were recognised that biosphere, geosphere, and hydrosphere used very important in network structures. In conclusion, science gifted students were understood well that components of the earth system are influencing each other.

• Journal of Korean Home Economics Education Association
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• v.24 no.3
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• pp.143-173
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• 2012

We investigated environmental problems related to clothing, and attempted their practical solutions using Future Problem Solving Program in order to cultivate the creative character in teenagers. We applied "teaching and learning plans" to seventy-seven the first graders of high school students in 2 classes in Gyeonggi-do, one hour per day for 3 weeks, from August 23 to September 8 2011. Statistical analyses were performed using the SPSS for Windows software(version 17.0). Mean differences in results between pretest and posttest were evaluated using Student's t-test. We selected 'production of fabrics, production of clothing, disposal and recycling of clothing and washing of clothing' as the learning theme in educational content factors of 'clothing culture in consideration of environment'. And we developed thirteenth teaching and learning plans and educational materials including 4 problems, 2 worksheets, 10 team worksheets, 7 video materials and 7 Power Point materials using Future Problem Solving Program(FPSP). The measurements of fluency, flexibility, originality and problem-solving ability are significantly improved. The level of creativity in the items of fluency, flexibility and originality, in particular, exhibited marked improvement, 'below-average' to 'above-average', regardless of academic records and gender. Problem-solving ability in female students was more effective than that of male, but it showed no significant correlation with academic records. The analysis of character-change showed the highest improvement in the awareness on the protection of environment, the character factor in the educational contents. Personalities, confidence, consideration and cooperation in learning method of FPSP also exhibited a significant improvement. But character-change did not correlate with academic records or gender. In the present study, we found that home economics has a positive effect on cultivating creative character. When we selectively and properly apply a course of creative problem-solving of FPSP and a course of creative output to students, we can increase their ability to solve problems, cultivate their creative character and further enhance their interest on home economics.

• 한국정보교육학회:학술대회논문집
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• 2004.08a
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• pp.181-188
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• 2004

정보화된 미래사회를 준비하기 위하여, 우리나라에서는 실과의 한 영역과 학교재량시간을 통하여 컴퓨터 교육을 하고 있다. 그러나 실과 교육과정은 지나치게 기능 위주의 내용으로 되어있고, 학교 재량시간을 이용한 컴퓨터 교육에서는 타자연습이나 컴퓨터 활용교육만을 강조하고 있다. 이러한 교육은 컴퓨터와 친숙해지는 데는 도움을 줄 수 있지만, 고차원적인 사고력을 지닌 학생을 교육하는 데는 도움이 되지 못한다. 특별히 컴퓨터의 무한한 사용 가능성을 이용하여 창의적 문제 해결력을 기르는 교육은 매우 필요하다 하겠다. 이러한 문제를 해결하기 위하여 문제 해결 능력 교육, 즉 문제 상황이 주어지고 이것을 해결하는 프로그래밍 교육이 매우 유용하나, 지금까지의 프로그래밍 교육은 지나치게 언어 기술교육에 초점을 두고, 단순 반복과 암기, 아동의 발달단계를 고려하지 않음으로 인해 오히려 창의성을 해치고 학습의 흥미도를 저하시켜왔다. 이에 본 연구에서는 학생들 수준에 맞춰 구체적인 결과물이 보이고, 쉽고 흥미롭게 학습할 수 있는 프로그래밍 교육과정을 개발하기 위해 'LED 소자를 이용한 프로그래밍 교육 방안'을 설계하였다. 본 연구를 통하여서 초등학교 학생들이 쉽고 재미있게 프로그래밍에 접근하고, 고차원적인 문제 해결력을 기르는 컴퓨터 교육과정의 한 모델을 제시하였다.

• Journal of Integrative Natural Science
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• v.14 no.1
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• pp.21-26
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• 2021

이 논문은 기존의 도시가 부동산 중심의 경제 원리로 형성됐다면 스마트시티는 거주자 생활을 중심으로 한 도시계획 서비스라고 말한다. 이런 스마트시티가 되기 위해서는 각 지역의 철도와 도로 등 도시 인프라를 비롯해 유통, 의료, 교육의 혁신도 필요하다.하지만 스마트시티가 도시운영체제를 디지털화하는 것으로 끝나는 건 아니다. 스마트시티기반에 메타버스(Metaverse)를 통한 당면한 각종 도시 문제를 해결을 위한 선행연구를 다뤄보기로 하였다. 도시운영체제를 입히는 도시의 지역적 특성을 살리면 해당 도시에 당면한 문제를 해결하는 미래의 스마트시티는 과연 어떠한 도시일까? 이에 대한 답변을 하기 위하여 스마트시티기반의 메타버스(Metaverse)를 통한 도시문제해결을 모색하였다.

• Journal of the Korean School Mathematics Society
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• v.22 no.3
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• pp.329-350
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• 2019

Productive struggle is a student's persevering effort to understand mathematical concepts and solve challenging problems that are not easily solved, but the problem can lead to curiosity. Productive struggle is a key component of students' learning mathematics with a conceptual understanding, and supporting it in learning mathematics is one of the most effective mathematics teaching practices. In comparison to research on students' productive struggles, there is little research on preservice mathematics teachers' productive struggles. Thus, this study focused on the productive struggles that preservice mathematics teachers face in solving a non-routine mathematics problem. Polya's four-step problem-solving process was used to analyze the collected data. Examples of preservice teachers' productive struggles were analyzed in terms of each stage of the problem-solving process. The analysis showed that limited prior knowledge of the preservice teachers caused productive struggle in the stages of understanding, planning, and carrying out, and it had a significant influence on the problem-solving process overall. Moreover, preservice teachers' experiences of the pleasure of learning by going through productive struggle in solving problems encouraged them to support the use of productive struggle for effective mathematics learning for students, in the future. Therefore, the study's results are expected to help preservice teachers develop their professional expertise by taking the opportunity to engage in learning mathematics through productive struggle.

• Proceedings of the Korea Information Processing Society Conference
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• 2011.04a
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• pp.1534-1537
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• 2011

컴퓨터 사용이 우리의 일상 생활이 되면서 컴퓨터 과학은 이미 우리 사회 여러 영역을 바꾸어 놓았다. 그리고 이런 관점에서 볼 때 컴퓨터 과학자처럼 사고하고 문제를 해결하는 능력인 Computational Thinking은 앞으로의 사회에서 나타날 문제를 해결하는 해결 방법이 될 것이고 미래사회를 살아가는데 필수 능력이 될 것이다. 따라서 본 연구에서는 Computational Thinking의 정확한 개념을 살펴보고 초등교육에서는 어떤 부분에서 Computational Thinking을 찾아볼 수 있는 지 알아보고자 한다.

• Journal of The Korean Association For Science Education
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• v.39 no.4
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• pp.479-488
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• 2019

The purpose of this research is to derive competencies necessary for students with future convergent STEAM talents, and to explore ideal student images, teaching-learning strategies, evaluation methods, and teachers' competencies and their training methods for future schools developing students' competencies. In order to figure out the features of the future schools, 25 experts from related fields, including in-service teachers, administrators, and college students in science and technology, participated in a future workshop. According to the results, students with future convergent science and technology talents are expected to have flexible thinking and creative thinking competencies to solve problems in innovative ways rather than traditional ways. In other words, it takes the power to accept and accommodate unexpected situations and solve problems appropriately in those situations. To cultivate such competencies, therefore, future schools should also be flexible and proactive. Rigid schools delivering knowledge-based information make it impossible to cultivate flexible and creative talents. Future schools should change into leaner-centered project-based classes so that students can naturally cope with various situations and solve large and small problems, and prepare assessment systems that can provide feedback based on the student's performances rather than achievement standards.

• Journal of Korean Electronics
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• v.27 no.10
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• pp.35-36
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• 2007

• Water for future
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• v.49 no.8
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• pp.64-67
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• 2016