• 한국초등과학교육학회지:초등과학교육
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• 제40권2호
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• pp.239-252
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• 2021

본 연구에서는 STEAM 교육이 중시하는 과학에 대한 흥미와 과학적 창의성을 더 효과적으로 신장시키기 위해, 뇌기반 진화적 접근법에 따른 과학 교수·학습 모형(ABC-DEF)을 STEAM 교육에 적용하여, 새로운 '뇌기반 진화적 STEAM 교육' 교수·학습 프로그램을 개발하였다. 경기도 소재 S 초등학교 4학년 학생 90명을 대상으로 한 이 연구는, 비교반(45명) 학생들에게는 교과서·지도서 기반 STEAM 교육수업을, 실험반(45명) 학생들에게는 뇌기반 진화적 STEAM 교육 수업을 실시하였고, 수업 전후에 과학 흥미 검사와 과학 창의성 검사를 각각 시행하여 그 결과를 좌우·전후 비교분석을 통해 정량적으로 검증하였다. 또한, 정량적 검사로 드러나지 않는 특성들을 분석하기 위해 학생 관찰지, 면담일지를 추가로 분석하여 정성적 연구를 병행하였다. 본 연구의 주요 결과는 다음과 같다. 첫째, 과학 흥미 변인에 대하여 독립 표본 검증(좌우비교)을 시행한 결과, 뇌기반 진화적 STEAM 교육 프로그램이 교과서 기반 STEAM 교육 수업보다 상대적으로 과학 학습에 대한 흥미는 높이고, 불안을 감소시킨다는 것을 알 수 있었다. 둘째, 과학 흥미 변인에 대하여 종속 표본 검증(전후 비교)을 시행한 결과, 사전·사후 점수 간에 유의미한 차이가 없었던 교과서 기반 STEAM 교육에 반해, 뇌기반 진화적 STEAM 교육 프로그램은 수업 전후에 따라 과학에 대한 흥미가 향상되는 것을 알 수 있었다. 셋째, 과학 창의성 변인에 대한 독립표본 검증(좌우비교)을 시행한 결과, 뇌기반 진화적 STEAM 교육 프로그램이 교과서 기반 STEAM 교육수업보다 학생의 과학 창의성 점수와 독창성 점수를 높이는 데 더 효과적인 것으로 검증되었다. 넷째, 과학 창의성 변인에 대한 종속 표본 검증(전후비교)을 시행한 결과, 두 가지 교수·학습 방법 모두 수업 전후에 따라 학생의 독창성, 유용성, 과학 창의성 점수를 효과적으로 향상시킨 것으로 나타났다. 이러한 연구 결과를 토대로, 과학 교육과 STEAM 교육 연구에 관한 함의들을 논의하고자 한다.

• 한국정보과학회:학술대회논문집
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• 한국정보과학회 2000년도 봄 학술발표논문집 Vol.27 No.1 (B)
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• pp.459-465
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• 2000

최근 들어 인공지능과 뇌과학 분야의 연구성과를 힘입어 뇌의 기본기능을 이해하고 재구축하고자 하는 시도가 활발히 전개되고 있다. 뇌의 정보처리 기능을 실험관찰 방법으로 밝히고자 하는 신경과학, 마음의 정보 처리 기능을 역시 실험관찰 방법으로 이해하고자 하는 심리학, 그리고 정보처리모형의 구성법을 제시하는 컴퓨터과학을 통합함으로써 뇌와 마음의 작동을 정보과학의 입장에서 해명하고자 하는 접근방식이 현재 가장 가능성이 있다고 생각된다. 본 논문에서는 그와 같은 맥락에서 인공적으로 뇌를 구현하기 위하여 제안된 CAM-Brain을 소개하고, 로봇을 제어하는 문제에 적용한 예를 통하여 그 가능성을 보이고자 한다.

• 한국과학교육학회지
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• 제29권8호
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• pp.990-1010
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• 2009

이 연구에서는 뇌기반 진화적 교육 원리를 도출하기 위하여, 인간 뇌의 구조적 기능적 특징, 개체간과 개체내에서 일어나는 생물학적 진화, 뇌내에서 일어나는 진화적 과정, 과학 자체와 개별 과학자의 과학적 활동에 내재된 진화적 속성에 관한 연구물을 리뷰하였다. 이렇게 하여 도출된 인간 뇌의 주요 특징과 생성-선택-파지를 핵심 요소로 하는 보편 다윈주의 혹은 보편 선택주의를 토대로, 뇌기반 진화적 과학 교수 학습 모형을 개발하였다. 이 모형은 세 가지 요소와 세 가지 단계 및 평가로 이루어진다. 세 가지 요소는 정의적, 행동적, 인지적 요소이고, 각 요소를 구성하는 세 단계는 다양화 $\rightarrow$ 비교 선택 $\rightarrow$ 확장 적용(ABC-DEF; Affective, Behavioral, Cognitive components - Diversifying$\rightarrow$Emulating, Estimating, Evaluating $\rightarrow$ Furthering steps)이다. 이 모형에서 정의적 요소 (A)는 인간 뇌에서 감성을 관장하는 대뇌변연계에 토대를 두고 자연 사물과 현상에 대한 학습자의 흥미 호기심과 관련된다. 행동적 요소(B)는 시각 정보를 처리하는 후두엽, 언어 정보의 이해.생성과 관련된 측두엽, 감각운동 정보를 처리하는 감각운동령을 수반하고 과학적 활동의 직접 해보기와 관련된다. 인지적 요소(C)는 사고, 계획, 판단, 문제해결과 관련된 전두엽합령에 토대를 둔다. 이 모형은 이러한 측면에서 '뇌기반(brain-based)'이다. 이 모형의 세 가지 각 요소를 구성하는 세 단계에서, 다양화 단계(D)는 각 요소에서 다양한 변이체를 생성하는 과정이고, 가치나 유용성에 비추어 비교.선택하는 단계(E)는 변이체들 중 유용하거나 가치 있는 것을 검증하여 선택하는 과정이며, 확장.적용 단계(F)는 선택된 것을 유사한 상황으로 확장하거나 적용하는 단계이다. 이 모형은 이러한 측면에서 '진화적(evolutionary)'이다. ABC 세 요소에 대해, 과학적 활동에서 감성적 요인이 출발점으로 갖는 중요성과 뇌에서 사고 기능과 관련되는 신피질에 비해 감성을 관장하는 대뇌변연계의 우세한 역할을 반영하여 DARWIN (Driving Affective Realm for Whole Intellectual Network) 접근법을 강조한다. 이 모형은 학교 현장에서 다루는 과학 주제와 학생의 특징에 따라 다양한 형태와 수준으로 융통성 있게 실행될 수 있다.

• 한국초등과학교육학회지:초등과학교육
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• 제34권1호
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• pp.109-122
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• 2015

In National Curriculum of Science revised in 2007, free inquiry was newly introduced to increase student's interest in science and to foster creativity by having students make their own curiosity questions and find answers by themselves. The purpose of this study is to analyze elementary school students' perceptions on free science inquiry activities applying a brain-based evolutionary approach. For this study, 106 the fifth grade students participated, and then completed a questionnaire on free inquiry activities according to a brain-based evolutionary science teaching and learning principles. The students performed a series of steps of the Diversifying, Estimating-Evaluating-Executing, and Furthering activities in each of Affective, Behavioral, and Cognitive domains (ABC-DEF approach) and constructed their own free inquiry diary, then the observations by the researcher and interviews with the students were analyzed both quantitatively and qualitatively. The major results of the study were as follows: First, the majority of the students perceived the each domain and step positively although a few of them perceived negatively. The reasons perceived as negatively were categorized into two; preference dimension of like or dislike and ability dimension of metacognitive or self-reflective capacity. Also, they perceived the free inquiry experience in the form of ABC-DEF as helpful to understand the nature of scientists' scientific activities. Based on these findings, implications for supporting authentic inquiry in school science are discussed.

• 한국초등과학교육학회지:초등과학교육
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• 제37권3호
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• pp.233-253
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• 2018

Since open inquiry of science was formally introduced at the 2007 Revised Science Curriculum Course, the purpose and effect of it has been positively evaluated, and it is underlined continuously until the revised science education course in 2015. However, through many previous studies, there is still a lack of awareness of open inquiry of both students and teachers in the field, and it was revealed they are continually appealing confusion and difficulties. Therefore, in this research, we analyzed the causes that make it difficult to execute open inquiry, and developed differentiated open inquiry guide materials that can contribute to the realization of teachers and students. They were developed by the brain-based evolutionary approach to provide students with authentic science. The brain-based evolutionary approach is reflecting the evolutionary attributes and the brain functions associated activities of scientists. It was revealed that, in the same way as the pilot test results, the usefulness of the differentiated guide materials were very high, and there was a statistically significant difference in the science attitude. It was found that the application of the brain-based evolutionary approach had positively influenced the stage of determining the inquiry themes, and self-confidence that could be able to do as a scientist. Analysis of top and sub group types on the basis of inquiry ability showed that both groups are improved at science attitude by the differentiated guide materials. There was a positive effect on change in the self-perception of scientific creativity. We were able to see a positive change in the post survey for open inquiry-efficacy. The developed differentiated open inquiry guide materials contributed to the improvement of open inquiry-efficacy for both the teacher and student.

• 한국초등과학교육학회지:초등과학교육
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• 제34권2호
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• pp.252-263
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• 2015

This study analyzed the effects of science outdoor activity applying a Brain-Based Evolutionary (ABC-DEF) approach on elementary school students' interest and academic achievement. Samples of the study were composed of 3 classes of 67 sixth graders in Seoul, Korea. Unit of 'Ecosystem and Environment' was selected as a object of the research. Textbook- and teachers' guidebook-based instruction was implemented in comparison group, brain-based evolutionary approach within classroom in experimental group A, and science outdoor learning by a brain-based evolutionary approach in experimental group B. In order to analyze the quantitative differences of students' interests and achievements, three tests of 'General Science Attitudes', 'Applied Unit-Related Interests', and 'Applied Unit-Related Achievement' were administered to the students. To find out the characteristics which would not be apparently revealed by quantitative tests, qualitative data such as portfolios, daily records of classroom work, and interview were also analyzed. The major results of the study are as follows. First, for post-test of interest, a statistically significant difference between comparison group and experimental group B was found. Especially, the 'interests about biology learning' factor, when analyzed by each item, was significant in two questions. Results of interviews the students showed that whether the presence or absence of outdoor learning experience influenced most on their interests about the topic. Second, for post-test of achievement, the difference among 3 groups according to high, middle, and low levels of post-interest was not statistically significant, but the groups of higher scores in post-interest tends to have higher scores in post-achievement. It can be inferred that outdoor learning by a brain-based evolutionary approach increases students' situational interests about leaning topic. On the basis of the results, the implications for the research in science education and the teaching and learning in school are discussed.

• 한국초등과학교육학회지:초등과학교육
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• 제33권4호
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• pp.773-783
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• 2014

In National Curriculum of Science revised in 2007, the Free Inquiry was newly introduced to increase students' interest in science and to foster creativity by having students make their own question and find answer by themselves. The purpose of the study was to analyze characteristics, in cognitive domain, appeared in the processes of performing the Free Inquiry activities applying a brain-based evolutionary science teaching and learning principles. For this study, 106 fifth grade students participated, and they performed individually Free Inquiry activities. In order to characterize of the diversifying, estimating-evaluating-executing, and extending-applying activities in cognitive domain (C-DEF), the Free Inquiry diary constructed by the students, observations by a researcher, and interviews with the students were analyzed both quantitatively and qualitatively. The major results of this study were as follows: First, at C-D step, many students (71.5%) had difficulty in searching the meanings of their results and the contents of interpretations were at the level of simple description of their results. A few students (15.2%) derived interpretations based on causal relationships between specific variable and result. Also, the tendency that the numbers of interpretation about meaning of their results were increased as the scores of science attitude and achievement was appeared. Second, at C-E step, the students showed tendency of considering facts exactly explaining inquiry topic and being appliable to daily life rather than objectivity or accuracy of scientific knowledge. Third, at C-F step, there were three types of extension and application: simple repetition (8.2%), extension (64.0%), and upward application (17.6%) types. Based on these findings, implications for supporting appropriate interpretation, evaluation, and application of inquiry results are discussed.

• 한국초등과학교육학회지:초등과학교육
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• 제33권3호
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• pp.579-587
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• 2014

In National Curriculum of Science revised in 2007, 'Free Inquiry' was newly introduced to increase student's interest in science and to foster creativity by having students make their own questions and find answers by themselves. The purpose of the study was to analyze characteristics deployed in the processes of elementary school students' free inquiry activities applying a brain-based evolutionary science teaching and learning principles. For this study, 106 the fifth grade students participated, and they performed individually free inquiry activities according to a brain-based evolutionary approach. In order to characterize the diversifying, estimating-evaluating-executing, and extending-applying activities in behavioral domain, the free inquiry diary constructed by the students, observations by the researcher, and interviews with the students were analyzed both quantitatively and qualitatively. The major results of this study were as follows: First, the students preferred basic inquiry process skills and the majority of the students selected observation as a major approach of their inquiry. The reason was found to be that they were accustomed to only typical basic inquiry skills which is frequently presented at textbooks and regular instruction and didn't have appropriate experience for using relevant integrative inquiry skills. Second, most of the methods diversified and selected by the students were confined to descriptive explanation rather than causal one. Third, both of the science attitude and academic achievement were associated with the number of diversified methods and the selection of appropriate method. Based on these findings, implications for supporting domain novices in inquiry learning environments are advanced.

• 한국초등과학교육학회지:초등과학교육
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• 제35권4호
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• pp.469-478
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• 2016

A brain-based evolutionary approach developed by reflecting the brain functions and authentic science is consisted of Affective, Behavioral, and Cognitive domains, and within each domain the processes of Diversifying, Evaluating, and Furthering are proceeded (ABC-DEF). Two core components of creativity of originality and usefulness are inherent in each step. So, this study analyzed scientific creativity with the originality and usefulness components in cognitive domain, which is composed of diversifying the meanings inherent in the results of observations or experiments (C-D), evaluating the meanings (C-E), and furthering (C-F) in learning of 'World of Plants' unit which includes two topics of 'Plants on Land' and 'Plants in Water and Special Environment'. A total of 20 fourth grade students at Y elementary school in Gyeonggi province participated in the study. The main results of this study are as follows. First, the scientific creativity in step C-D (Diversifying stage) was assessed according to the scientific creativity assessment formula. The scores of scientific creativity were quite different with topics and showed different pattern in the originality and usefulness components. Second, when the students compare and evaluate the values of each meaning (C-E stage), they weighed more on usefulness than originality, such as "because it is useful" or "because it solve many everyday problems". Third, the overall scores of scientific creativity in step C-F (Furthering stage), as compared with those of step C-D, were low and showed decrease in the average scores of originality from 9.8 to 7.5 points, whereas increase in the average scores of usefulness from 5.4 to 6.1 points. In conclusion, these results showed that, even though the levels were not so high, the students, as scientists, can exhibit the scientific creativity in the processes of diversifying, comparing and evaluating, and applying the meanings about the results obtained by observations or experiments. The specific and various strategies to help students express their potential scientific creativity more effectively need to be developed.

• 한국초등과학교육학회지:초등과학교육
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• 제35권3호
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• pp.336-347
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• 2016

The purpose of this study is to analyze the effects of elementary science instruction applying a Brain-Based Evolutionary (ABC-DEF) approach using Rapid-cycling Brassica rapa (RcBr) on the interests of elementary school students. For this study, two elementary school classes in Seoul and one elementary school class in Gyeonggi-do were selected. Comparison group received instruction using textbook and teacher's guidebook. A class taught using only brain-based evolutionary approach is experimental group A, and a class taught through brain-based evolutionary approach using RcBr is experimental group B. In order to analyze the quantitative differences about the interests of students, three kinds of test were administered to the students: 'Applied Unit-Related Interests', 'Follow-up Interests' and 'Interests in the observation material'. To get more information, qualitative data such as portfolios and interviews were analyzed. The major findings are as follows. First, for the test of applied unit-related interests, a statistically significant difference was found between comparison group and experimental group A, and between comparison group and experimental group B. As the results of interviews, the students have shown that the intensified exploration activities on plant in Brain-Based Evolutionary approach applied to experimental groups A and B had a positive effect. Second, for test of follow-up interests, we classified the students' follow-up interests into three types: extended-developed-deepened (EDD) type, simply expanded-maintained (SEM) type, and stopped or decreased (SD) type. Both experimental group A and experimental group B showed the highest percentage of EDD. Also, observation journal applying the evolutionary process (DEF) showed a positive effect on the students' interest. Comparison group showed the highest percentage of SEM. Third, for test of applied interests in the observation material, a statistically significant difference was found between comparison group and experimental group A, and comparison group and experimental group B. Experimental group B using RcBr showed the highest average score, while experimental group A showed a higher score than comparison group. Based on these findings, educational implications of Brain-Based Evolutionary approach and using RcBr are discussed.