• 제목/요약/키워드: Brain based learning

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초등과학교육에의 적용을 위한 뇌-기반 학습 연구의 교육적 의미 분석 (The Analysis of Researches on the Brain-based Teaching and Learning for Elementary Science Education)

  • 최혜영;신동훈
    • 한국초등과학교육학회지:초등과학교육
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    • 제33권1호
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    • pp.140-161
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    • 2014
  • The purpose of this study was to analyze 181 papers about brain-based learning appeared in domestic scientific journals from 1989 to May of 2012 and suggest application conditions in elementary science education. The results of this study summarizes as follows; First, learning activity suggested by brain-based learning study is mainly explained by working of brain function. Learning activity explained by brain-based learning study are divided into 'learning according to specialized brain function, learning according to brain function integration and learning beyond specialization and integration of hemispheres'. Second, it searched how increased knowledge of brain structure and function affects learning. Analysis from this point of view suggests that brain-based learning study affects learning in many ways especially emotion, creativity and learning motivation. Third, brain-based learning study suggests various possibilities of learning activity reflecting brain plasticity. Plasticity which is one of most important characteristics of brain supports the validity of learning activity as learning disorder treatment and explains the possibility of selective increment of brain function by leaning activity and the need of whole-brain approach to learning activity. Fourth, brain-based learning brought paradigm shifts in education field. It supports learning sophistication on the understanding of student's learning activity, guides learning method that reflects the characteristics of subject and demands reconstruction of curriculum. Fifth, there are many conditions to apply brain-based learning in elementary science education field, learning environment that fits brain-based learning, change of perspectives on teaching and learning of science educators and development of brain-based learning curriculum are needed.

뇌-기반 학습 과학적 관점을 적용한 교수.학습 프로그램 분석 -초등학교 5학년 과학을 중심으로- (Analysis of Teaching-Learning Programs from the Perspective of Brain-Based Learning Science -Focused on 5th Grade Elementary Science-)

  • 이나연;신동훈
    • 한국초등과학교육학회지:초등과학교육
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    • 제30권4호
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    • pp.562-573
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    • 2011
  • The purpose of this study was to examine the effects of teaching-learning programs from the perspective of brain-based learning science. Four units in 5th grade elementary science programs of the Revised 2007 National Curriculum were selected as contents to study. As the brain-based learning science analysis method, equations of the brain compatibleness index (BCI) and contribution degree on the brain compatibleness index (BCICRE) were applied to them. This study showed that there were qualitative and quantitative differences among the analyzed teaching-learning programs through the unit and curriculum. The results showed that hands-on activities like experiments or open inquiry activities improved their evaluation of the teaching-learning programs. From the analyzing, teachers can judge whether each teaching-learning program made considered the brain of the learners. Furthermore, this study can provide useful information to consult of various science teaching-learning programs brain-based learning.

뇌교육 기반 학습캠프 프로그램이 아동의 자기주도적 학습 능력 및 태도에 미치는 영향 (The Effects of Brain Education Based on Learning Camp Program for Children's self-directed learning ability and attitude)

  • 신재한;김혜선;김진아
    • 한국산학기술학회논문지
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    • 제19권1호
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    • pp.477-485
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    • 2018
  • 본 연구에서는 초등학생의 두뇌 특성 및 기제를 고려하고 뇌과학에 근거한 뇌교육 기반 학습 프로그램을 단기간의 캠프 형태로 적용함으로써 초등학생의 자기주도적 학습 능력과 태도를 향상시키는데 그 연구의 목적이 있었다. 이를 위해 본 연구는 전국 초등학생 4, 5, 6학년을 대상으로 2박 3일 동안 뇌교육 기반 학습캠프 프로그램을 실시하였다. 2017년 2월 3일부터 5일까지 6학년 45명, 2017년 2월 22일부터 24일까지 4, 5학년 56명, 총 101명을 대상으로 두 차례 진행하였다. 본 연구의 결론을 제시하면 다음과 같다. 뇌교육 기반 학습캠프 프로그램이 초등학생의 자기주도적 학습 능력과 학습 태도를 향상시키는데 효과가 있는 것으로 나타났다. 첫째, 뇌교육 기반 학습캠프 프로그램은 뇌체조, 호흡, 명상을 통해 학습 집중력을 높일 수 있다. 둘째, 뇌교육 기반 학습캠프 프로그램 중에서 '브레인스크린(Brain Screen)'이라는 심상훈련을 통해 기억력을 향상시킬 수 있다. 셋째, 뇌교육 기반 학습캠프 프로그램을 통해 공부를 해야 하는 이유와 학습동기를 부여함으로써 '내 공부는 내가 한다' 라는 자기주도적 공부철학을 확립시킬 수 있다.

뇌기반 학습과학: 뇌과학이 교육에 대해 말해 주는 것은 무엇인가? (Brain-based Learning Science: What can the Brain Science Tell us about Education?)

  • 김성일
    • 인지과학
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    • 제17권4호
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    • pp.375-398
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    • 2006
  • 인간은 보고, 듣고, 따라하고, 행하고, 느끼면서 배운다. 이 모든 과정에 뇌가 관여한다. 최근 뇌과학 연구의 비약적 발전과 뇌과학 연구와 인지과학 연구의 활발한 협력은 '뇌기반 학습과학(Brain-Based Learning Science)', '교육신경과학(Educational Neuroscience)', 혹은 신경교육학(Neuro-Education)이라 불리우는 새로운 연구 분야를 탄생시켰다. 뇌기반 학습과학은 기존의 '학습과학'을 넘어서 실제 학습과 교육환경에 적지 않은 변화를 줄 것으로 기대되는 만큼 그 가능성에 대해 회의적인 입장도 공존하고 있다. 이 논문에서는 뇌기반 학습과학의 정의와 기본가정을 살펴보고, 인지신경과학의 최신 연구가 어떻게 이루어지고 있는지를 소개하고 이러한 연구결과에서 교육적 함의를 도출해 보고자 하였다. 또한 신경계에 대한 신화적 사고와 그 문제점을 열거하고, 뇌과학과 학습-교육 현장의 연계 가능성 및 향후 뇌기반 학습과학의 전망과 한계에 대해 논의하였다.

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뇌학습 원리에 기초한 조리교육을 위한 통합적 고찰 (An Integrational Approach for Culinary Education based on Brain-based Teaching Principle)

  • 이정애
    • 한국조리학회지
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    • 제24권3호
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    • pp.144-155
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    • 2018
  • This study was conducted to explore the direction of culinary education based brain-based education with analysis of comprehensive research. Questionnaire was completed by frequency analysis, factor analysis, reliability analysis and regression analysis by using SPSS 21. The purpose of this study was to investigate the educational system for creative development through cooking sources and to develop brain-based learning theory, and thus to generate the characteristics and effects of the practice in culinary educational context. The basic principles of brain- based learning are brain plasticity, emotional brain, and ecological brain. Students need to be able to enrich their understanding of social interaction so that social brain's function will be activated through consistent and high-quality feedback. Likewise, students should be capable of collecting everything what they have learned. Defining main ideas and goal of the lesson, four factors were derived from development of competency, personality, application, and diversity. Regarding to the result of this study, the implications for the development of a brain-base program were suggested.

뇌과학에 기반한 연령별 학습법과 연령별 한의학적 학습방법론 비교고찰 (A Review of Domestic Research for the Brain-science Based Learning According to Age and Comparison and Consideration of Learning Methodology of Korean Medicine According to Age)

  • 조아람;박소임;강다현;서주희
    • 동의신경정신과학회지
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    • 제25권4호
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    • pp.333-350
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    • 2014
  • Objectives: The purpose of this study was to research learning based on brain science and the learning methodology of Korean Medicine according to disparity of age. Through this, the study aimed to provide a guideline to related Korean Medicine treatments as well as the common nurturing/educational institutions. Methods: All journals and dissertations on brain science based learning methods studied in Korea to date that could be found in the National Assembly Library and the RISS were implemented in the analysis. The terminology used for search was as follows: 1st search, 'Brain'; 2nd search, 'Learning', 'Education'; 3rd search, 'Baby, 'Infant', 'Child'. For the learning methodology of Korean Medicine according to disparity of age, the related contents were extracted from Donguibogam and Liuyi, Sasang constitutional medicine. Results: A total of 30 studies, were collected as data. In the baby stage, the development and myelination of brain neurons are accelerated by experience and learning, highly influenced by social, cognitive and emotional movement. In infancy, the frontal lobe actively develops, so education for development of the prefrontal cortex is suggested. The brain of the infant at this stage can be developed by arts and physical education. In the child stage, the parietal and temporal lobe develop actively. Thus, programs to stimulate brain activity including brain respiration would be helpful in enhancing learning ability, concentration, etc. As evidence for learning and nurturing methodology according to disparity of age from Korean Medicine prospective, the following are listed: Location and time for sexual intercourse before pregnancy, stabilization during pregnancy, baby nurturing methods for nurturing from Donguibogam. Also Liuyi and Sasanag constitutional medicine can be the learning methodology according to disparity of age. And there are acupuncture points on each head section according to age in Donguibogam. Conclusions: Studies on 'brain-science based learning' are continuously being conducted. Based on these studies, diverse new brain-science based learning will be developed in the future. There is also a need to develop the learning methodology of Korean Medicine according to disparity of age in a more systematic and diverse way.

학습감각에 대한 뇌의 분화성과 통합성 뇌파연구 (Brain laterality and whole brain EEG on the learning senses)

  • 권형규
    • Journal of the Korean Data and Information Science Society
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    • 제26권1호
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    • pp.55-64
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    • 2015
  • 학습감각과 뇌 활동의 관계를 규명하기 위해 학습자의 학습감각 유형과 뇌의 분화성 및 통합성에 따른 뇌파 지표에 따라 상호관계성을 규명하였다. 학습자는 시각, 청각, 운동감각을 통해서 정보를 습득한다. 이러한 뇌에 반영되는 학습 감각은 다양한 학습감각의 조합으로 나타나는데 뇌의 분화성과 통합성에 관여하는 학습감각의 유형을 측정하기 위해서는 관련된 학습양식을 규명하는 것이 요구된다. 또한 학습감각에 포함된 자기 주도적 학습은 뇌의 기능에 연계된 문제 중심학습이 통합 뇌로 알려진 균형적인 뇌의 활용을 강조하는 것과 관련이 있다는 것을 보여주고 있다. 본 연구결과는 감각운동리듬 (SMR) 뇌파에서 효과적인 통합뇌 학습이 높은 청각학습과 시각학습에 밀접하게 관련되어 있다는 것을 보여주며 베타파에서는 효과적인 통합뇌 학습이 높은 운동감각과 시각 학습에 밀접하게 관련되어 있다는 것을 보여주었다.

뇌 기반 과학 교수 학습 모형을 적용한 "슬기로운 생활" 수업의 효과 (The Effects of a Brain-Based Science Teaching and Learning Model on ${\ulcorner}$Intelligent Life${\lrcorner}$ Course of Elementary School)

  • 임채성;하지연;김재영;김남일
    • 한국초등과학교육학회지:초등과학교육
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    • 제27권1호
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    • pp.60-74
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    • 2008
  • The purpose of this study was to examine the effects of a brain-based science teaching and learning model on the science related attitudes, scientific inquiry skills and science knowledge of the 2nd graders in Intelligent Life course. For this study, 117 elementary students from four classes of the 2nd grade in Seoul were selected. In the comparison group, traditional instruction was implemented and in the experimental group, instruction according to brain-based science teaching and learning model was implemented for four weeks. The results of this study were as follows : There were little differences between the comparison and experimental groups in terms of the science related attitudes except for the sub-domains of interest and curiosity. And brain-based science teaching and learning model programs improved a few scientific inquiry skills, especially observation and classification. In addition, the experimental groups showed a positive effect on science knowledge. In conclusion, brain-based science teaching and learning model programs were more effective in improvement of the science related attitudes, scientific inquiry skills and science knowledge of elementary students.

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간호교육에서 뇌기반학습의 교수전략을 위한 통합적 고찰 (Brain-based Teaching Strategies for Nurse Educators: An Integrative Review)

  • 오진아;김신정;강경아;김성희;노혜린
    • 한국간호교육학회지
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    • 제20권4호
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    • pp.617-627
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    • 2014
  • Purpose: Brain-based learning has become increasingly important in nursing education. The purpose of this study is to (a) synthesize the literature on brain-based learning in nursing education using Whittemore and Knafl's integrative review method, and (b) discuss teaching strategies for nursing educators. Method: Searches were made through the CINAHL, OVID, PubMED, and SCOPUS databases using the terms $nurs^*$ AND (brain based OR neuroscience) AND ($educa^*$ OR $learn^*$ OR $teach^*$). Included were original articles in the domain of undergraduate nursing education written in English in peer-reviewed journals between January 1984 and December 2013. Twenty-four papers met the criteria. Results: Three themes were retrieved: (a) activate whole-brain functions, (b) establish supportive educational environments, and (c) encourage learners to be more active. Conclusion: Brain-based learning enhances the learning capabilities of undergraduate nursing students.

뇌기반 진화적 접근법에 따른 과학 야외학습이 초등학생들의 흥미와 성취도에 미치는 영향 (Analyses of Elementary School Students' Interests and Achievements in Science Outdoor Learning by a Brain-Based Evolutionary Approach)

  • 박형민;김재영;임채성
    • 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.