• 산경연구논집
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• 제10권11호
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• pp.71-80
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• 2019

Purpose: The purpose of this study is to design the curriculum of Basic College Software Programming to develop creative and logical-thinking. This course is guided by algorithmic thinking and logical thinking that can be solved by computing for problem-solving, and it helps to develop by software through basic programming education. Through the stage of problem analysis, abstraction, algorithm, data structure, and algorithm implementation, the curriculum is designed to help learners experience algorithm problem-solving in various areas to develop diffusion thinking. For Learners aim to achieve the balanced development of divergent and convergent-thinking needed in their creative problem-solving skills. Research design, data and methodology: This study is to design a basic software education for improving algorithm-thinking for non-major. The curriculum designed in this paper is necessary to non-majors students who have completed the 'Creative Thinking and Coding Course' Design Thinking based are targeted. For this, contents were extracted through advanced research analysis at home and abroad, and experts in computer education, computer engineering, SW education, and education were surveyed in the form of quasi-openness. Results: In this study, based on ADD Thinking's algorithm thinking, we divided the unit college majors into five groups so that students of each major could accomplish the goal of "the ability to internalize their own ideas into computing," and extracted and designed different content areas, content elements and sub-components from each group. Through three expert surveys, we established a strategy for characterization by demand analysis and major/textbook category and verified the appropriateness of the design direction to ensure that the subjects and contents of the curriculum are appropriate for each family in order to improve algorithm-thinking. Conclusions: This study helps develop software by enhancing the ability of students who practice various subjects and exercises to explore creative expressions in various areas, such as 'how to think like a computer' that can implement and execute their ideas in computing. And it helps increase the ability to think logical and algorithmic computing based on creative solutions, improving problem-solving ability based on computing thinking and fundamental understanding of computer coding and development of logical thinking ability through programming.

• 정보교육학회논문지
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• 제22권4호
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• pp.491-500
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• 2018

4차 산업혁명시대에 필요한 인재는 특정 학문에 종속되는 것이 아니라 여러 학문들을 융합할 수 있어야 한다. 초등학생들의 경우에 다양한 변화의 가능성이 있기 때문에 융합적인 사고를 갖는 것이 중요하다. 따라서 초등학교 영재를 선발할 때에도 융합 영재 학생들을 선발하고 있다. 본 연구에서는 융합 영재 학생들을 선발할 때에 창의적인 문제 해결력, 서류 평가, 면접 요소들이 학생 선발에 어떤 영향을 미치는지 알아본다. 연구 결과 창의적 문제해결력이 선발에 미치는 영향력이 가장 높다. 5학년의 경우에는 창의적인 문제 해결력과 서류 평가가 선발에 영향을 미치고, 4학년의 경우에는 창의적인 문제 해결력과 면접이 선발에 영향을 미치고. 여학생들은 창의적인 문제해결력과 서류 평가가 선발에 영향을 미친다는 것을 알 수 있었다. 그룹별로 차이를 분석한 결과, 성별에서는 서류 평가에서 성별로 차이가 있었고, 학년별 유의미한 차이점이 없다는 것을 알 수 있었다.

• 한국산학기술학회논문지
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• 제13권10호
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• pp.4536-4542
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• 2012

본 연구에서는 창의성 교육 프로그램이 아동의 창의적 사고능력과 창의적 인성에 지속적으로 영향을 미치는지에 대하여 알아보고자 종단연구를 실시하였다. 이를 위해 창의성 프로그램을 초등학교 4학년 학생들에게 실시한 후 사후검사를 실시하였으며 1년 뒤에 실험을 했던 학생들을 추적하여 지연사후검사를 실시하였다. 연구결과 창의적 사고능력과 창의적인성의 하위요인에서 창의성 프로그램을 실시한 이후에는 1년이 지난 시점에서도 그렇지 않은 집단보다 의미있게 높은 것으로 나타났다. 이에따라 창의성 교육에 대한 교육적 시사점이 논의 되었다.

• 한국수학교육학회지시리즈D:수학교육연구
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• 제8권3호
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• pp.183-202
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• 2004

The former study results demonstrate that differences between people of creativity and non-creativity lie in differences of the self-efficacies rather than those of cognitive aspects and a man of higher self-efficacy has a tendency to set up a higher goal of achievement and higher self-efficacy influences his or her achievement results as well (Zimmerman & Bandura 1994). Using the method of mathematical creative responses of open-ended approach (Lee, Hwang & Seo 2003), difference of mathematical self-efficacies has been surveyed in the study. Results of the survey showed that some students of a high mathematical self-efficacy even had bad marks in the originality or creativity but, in some cases, some students of a low mathematical self-efficacy rather had good marks in the fluency. Therefore, the response results mathematical creativity ability may be a special ability and not just a combination of self-efficacy ability. The fluency of the mathematical creative ability may be a combination of mathematical motivation ability that have been surveyed in the study suggest that not only cognitive components but also social and emotional components should be included in a development process of new creative method for teaching and learning mathematics.

• 컴퓨터교육학회논문지
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• 제13권1호
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• pp.1-8
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• 2010

지식 기반 사회에서 지식과 정보를 활용하여 문제를 해결하는 능력은 매우 중요하다. 또한 기존의 지식으로 해결할 수 없는 다양한 문제 상황이 증대되고 있다. 따라서 본 연구에서는 정보의 체계적 수집 및 활용을 통한 창의적 아이디어 생성 및 이를 활용한 문제해결력 향상을 위한 정보 교육 프로그램을 개발하였다. 해당 프로그램은 발산적 사고와 수렴적 사고를 모두 다룰 수 있도록 조직하였으며, 문제 해결의 전체적인 경험을 제공하고 학습자 내부 지식 뿐 아니라 새로운 정보를 수집, 활용하여 문제를 해결하는 능력 향상에 초점을 두고 구성하였다. 또한 정보 활용 난이도에 따라 분리된 프로그램을 개발하였다.

• 한국초등과학교육학회지:초등과학교육
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• 제33권1호
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• pp.105-114
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• 2014

The purpose of this study was to develop a teaching strategy focused on problem solving process and explore its effects on science creative problem solving ability, science process skills, science academic achievements and scientific attitudes of students after applying it. Teaching strategy focused on problem solving process employed brainstorming and PMI thinking strategies. The participants were the third grade students of both an experimental class(26 students) and a comparative class(25 students) at the S elementary school located in Goyang-City, Kyonggi Province. The developed strategy was applied to the experimental class for 9 periods of 'Separation of mixture' unit. The results of the tests on the science creative problem solving ability, the science process skills, scientific achievement and scientific attitude were statistically higher in the experimental class.

• 영재교육연구
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• 제8권2호
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• pp.69-89
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• 1998

The purpose of this study is to develop a test which can be used in identification of the gifted students in the area of mathematics. This study was carried out for two years from 1996. Mathematical giftedness is, in this study, regarded as a result of interaction of mathematical thinking ability, mathematical creativity, mathematical task committment, background knowledge. This study presumed that mathematical thinking ability is composed of seven thinking abilities: intuitive insights, ability for information organization, ability for visualization, ability for mathematical abstraction, inferential thinking ability(both inductive and deductive thinking abilities), generalization and application ability, and reflective thinking. This study also presupposed that mathematical creativity is composed of 3 characteristics: fluency, flexibility, originality. The test for mathematical creative problem solving ability was developed for primary, middle, and high school students. The test is composed of two parts: the first part is concentrated more on divergent thinking, while the second part is more on convergent thinking. The major targets of the test were the students whose achievement level in mathematics belong to top 15~20% in each school. The goodness of the test was examined in the aspects of reliability, validity, difficulty, and discrimination power. Cronbach $\alpha$ was in the range of .60~.75, suggesting that the test is fairly reliable. The validity of the test was examined through the correlation among the test results for mathematical creative problem solving ability, I. Q., and academic achievement scores in mathematics and through the correlation between the scores in the first part and the scores in the second part of the test for mathematical creative problem solving ability. The test was found to be very difficult for the subjects. However, the discrimination power of the test was at the acceptable level.

• 한국콘텐츠학회논문지
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• 제12권10호
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• pp.106-115
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• 2012

21세기는 창의(創意) 중심의 시대이다. 교육정책 또한 창의성을 강조하며 창의를 바탕으로 새로운 변화를 꿈꾸고 있다. 예술을 통한 창의교육은 사물의 본질을 파악하고 본인이 느낀 것을 추구하고 인지능력 향상만 가져오는 것뿐 아니라 피교육자의 창의성 개발을 촉진시키며 사물에 대한 통찰력과 기존의 것과는 다른 새로운 사유와 법칙을 만들어내는 능력을 얻게 된다. 창의교육은 가정, 학교, 지역사회, 공공기관, 사설기관 등을 통하여 실행되고 있지만 창의적 환경에 노출되는 피교육자의 수는 극히 드물다. 창의교육을 담당하고 있는 다양한 방법 중 가장 보급력이 높은 창의실습도서의 연구와 개발은 아직 미흡한 현실이다. 창의교육실습도서의 새로운 접근이 필요하며 창의교육을 범국민적인 차원으로 넓혀가려면 손쉽게 볼 수 있도록 누구나 접할 수 있는 환경을 제공할 수 있어야 한다. 이러한 측면에서 예술 활동을 통한 창의교육 실습도서에 대한 고찰을 시작하게 되었으며 널리 연구되어 다양한 방식의 창의실습도서가 저서 되었으면 한다.

• 한국문헌정보학회지
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• 제26권
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• pp.53-74
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• 1994

Creative thinking in education is a common assumption to be accomplish in this information age. Information education can contribute to build the ability to think creatively. The Author explored how information education conduces the creative thinking ability that is necessary to the development of independent and competent study for students themselves. The writer also expressed the integrated education makes students think synthetically and synthetic educational experience derives creative thinking. She based her arguments upon the theory of the psychology of memory and the Piaget's cognitive structure. To increase the effects of information education, it is necessary to integrate the curriculums and learning method of the information education and those of other areas of learning, i,e., languages, literatures, social sciences, sciences, mathematics, etc. Here, author asserted that the teaching of information skill within classroom curriculums for all subject areas can make the integrated effects on various classroom curriculums. On the basis of the findings of this study, the author recommended that every school needs to prepare enough books and other media for the students to drill information skill. Consequently, to build creative thinking ability for He students, librarians, classroom teachers and school principals who have influence on the information education, have to cooperate to initiate integrated information education for the student.

• 한국수학교육학회지시리즈D:수학교육연구
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• 제7권3호
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• pp.163-189
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• 2003

The purpose of this study is to develop a test, which can be used in creative problem solving ability in mathematics of the mathematically gifted and the regular students. This test tool is composed of three categories; fluency (number of responses), flexibility (number of different kinds of responses), and originality (degree of uniqueness of responses) which are the factors of the creativity. After applying to 462 middle school students, this test was analyzed into item analysis. As a results of item analysis, it turned out to be meaningful (reliability: 0.80, validity: item 1(1.05), item 2(1.10), item 3(0.85), item 4(0.90), item 5(1.08), item difficulty: item 1(-0.22), item 2(-0.41), item 3(0.23), item 4(0.40), item 5(-0.01), item discriminating power: item 1(0.73), item 2(0.73), item 3(0.67), item 4(0.51), item 5(0.56), over the level of a standard basis. This means that the test tool was useful in the test process of creative problem solving ability in mathematics