• Journal of Korean Home Economics Education Association
• /
• v.31 no.4
• /
• pp.63-79
• /
• 2019

The purpose of this study was to suggest valuable maker education programs by implementing and evaluating a Home Economics(HE) maker education program developed based on the content of "Hanbok and Creative Clothing" for high school students. The results of this study are as follows. First, the HE maker education model for high school students was designed and developed. The HE maker education model was developed by integrating and modifying the TMSI model of the maker education model and Laster's HE practical action teaching model. The HE maker education model consisted of 4 steps: tinkering(T: 4-hour class), practical reasoning(P: 3-hour class), making together(M: 4-hour class), and sharing and spreading(S: 1-hour class) with a total of 12-hour lesson plans. The theme of the developed HE maker program is 'Practice and spread of creative traditional culture of life (Hanbok)'. Second, the results of online survey of 240 high school students who participated in this maker class showed that HE maker class had positive effects in the order of experiential(4.26), cognitive(4.22), emotional(4.18), social(4.18), and practical(4.10). It is expected that the findings of this study will contribute to diversifying the curriculum of Home Economics, thereby improving the quality of Home Economics Education.

• The Journal of the Korea Contents Association
• /
• v.21 no.4
• /
• pp.707-722
• /
• 2021

The need for Maker Education has received attention as an educational environment for cultivating the active and creative ability that can solve new problems in this era, and it is applied in various educational fields. Many of them use Design Thinking as a stage of maker activities. However, the educational value of each concept has not been magnified, since maker programs are designed by simply borrowing steps without considering the similar but different features of them. Therefore, this study developed a model of Maker Education utilizing Design Thinking based on complementary relationships. To this end, formative research methodology was conducted by the following procedures, developing a draft, conducting a formative evaluation, and completing the final model. As a result, the stages of Maker Education were visualized and detailed activities and instructing strategies in each step by reflecting the features of Maker Education, the autonomy of the learner and producing visible outputs using various tools and materials, and Design Thinking, the specific process of solving problems and enabling social participation.

• Journal of the Korean Society of Earth Science Education
• /
• v.16 no.3
• /
• pp.363-373
• /
• 2023

This study investigated the effects of the maker education program science class applying the TMSI model on elementary school students' academic achievement in science and scientific attitudes. This study involved 40 sixth-grade students from an elementary school in a metropolitan city, classified into an experimental group and a comparison group. The experimental group participated in the maker education program class applying the TMSI Model, whereas the control group experienced a traditional teacher-centered class as outlined in the teachers' guidebook. The results of the study were as follows. First, the maker education program science class applying the TMSI model had a significant effect on improving students' academic achievement in science. Second, the maker education program science class applying the TMSI model had a significant effect on improving students' science-related attitudes. Based on these results, the implications for science education and future research directions related to the application of maker education to science were discussed.

• Proceedings of the Korean Society of Computer Information Conference
• /
• 2020.01a
• /
• pp.121-124
• /
• 2020

본 논문에서는 다양한 전공의 예비 교사를 위한 Novel Engineering(NE) 기반의 메이커 교육 강의를 개발하였다. NE는 선정하는 도서의 내용에 따라 다양한 교과목에서 활용이 가능하다는 장점이 있는 교수·학습방법으로 다양한 전공을 가진 예비교사들이 자신의 전공에 메이커 교육을 접목하기에 용이하다. 강의의 개발은 교수설계모형인 ADDIE 모형의 절차에 따라 이루어졌으며 메이커 교육 이론→기술 습득→메이킹 프로젝트 1→메이킹 프로젝트 2의 단계로 구성된 강의를 개발하였다. 개발된 강의를 다양한 전공의 예비교사 20명에게 적용한 결과 높은 수준의 수업 만족도를 보였다.

• Journal of The Korean Association of Information Education
• /
• v.23 no.6
• /
• pp.529-542
• /
• 2019

Adverting of the 4th Industrial Revolution, maker education is emerged as a new paradigm and related studies keep increasing, As ideal human resources model has been changed. For this study, 65 theses on maker education were reviewed. The study has mainly analyzed the key factors for applying maker education in school. Though this study, it hopes to propose how further maker education studies should be developed. From the theses, 1.4 percent of the maker education program is actually usable in regular school class. For utilizing this education, it requires prior training and needs computer facilities. Most programs were designed as fusion form in more than two subject and included cooperative activities and sharing time. Further studies should be conducted on the application of education programs of within regular classes of school, recommended tools based on the school levels and prior training for tools, established the Makerspace in schools, shared student's output, evaluated students, and teacher training.

• The Journal of the Korea Contents Association
• /
• v.21 no.5
• /
• pp.295-309
• /
• 2021

Maker education has recently been actively practiced under strong governmental support as a nation-wide policy for innovative education, which now had to confront the unexpected challenge and crisis of 'contactless educational environments' due to COVID-19 pandemic. In this context, this study aimed to develop a checklist needed for developing 'contactless maker education program' which still continues to maintain 'maker mindsets' as the goal and direction of maker education, since maker education has been regarded as an alternative educational environment suitable for the 4th industrial revolution age. For this purpose, this study first conducted literature review related to maker education and contactless (i.e. online) education environments, from which several characteristics of the contactless maker education have been extracted. And then, 5 maker education instructors currently conducting the contactless maker education programs in various settings provided feedback on the developed checklist draft, which actually became the final version of the checklist. Considering the current COVID-19 pandemic situation, the checklist for the contactless Maker education might be helpful in preventing to diminish or reduce the educational values and active application of maker education.

• 대한공업교육학회지
• /
• v.44 no.2
• /
• pp.104-122
• /
• 2019

In the era of the fourth industrial revolution, maker education is drawing attention as a method of student-led education. At a time when interest in maker education is also growing in technology education, figuring out what stage of concern(SoC) a middle school technology teacher is critical to effective implementation. This study analyzed SoC in maker education by layer sampling among 400 middle school technology teachers using Concerns-based adoption model. SoC was then obtained by measuring the origin using the SoCQ and then presenting it as a SOCQ profile. Gender, training experience with two lower variables were analyzed using t verification, working cities, teaching experience with more than three lower variables were analyzed using one-way ANOVA. Studies showed that SoC in maker education of middle school technology teachers showed the most similar characteristics to that of non-users. The difference in concern depending on gender was that male teachers were more concerned in maker education than female teachers. The difference in concern depending on the working city was that teachers working in the township were more concerned in the maker education than teachers working in the large city, and the difference in concern depending on the teaching career was higher among teachers with middle experience than those with low and high experience. There was also a higher stage of concern in maker education than in teachers without training experience. Therefore, it is necessary to provide middle school technology teachers with an introduction to the maker education and various information, teaching, learning and evaluation data to enhance overall concern and to support the use and evaluation of the maker education in the classroom by providing various teacher training and consulting on the maker education in the future. Further, through further study, we should conduct study that analyzes both Stage of Concern, Level of Use and Innovation Configuration, to put in the effort for effective settlement of maker education.

• Journal of Korean Elementary Science Education
• /
• v.41 no.2
• /
• pp.432-442
• /
• 2022

This study aims to apply a maker education program in an online class for a unit in elementary science entitled "Life of a Plant." Furthermore, it aims to investigate the effect of the program on the interest of students in science and creative problem-solving. The theme of the proposed maker education program is "Making a fairy tale audio book with the theme: the life cycle of a plant." The program consists of activities intended to produce creative audiobooks using concepts learned from the TMI maker education model stage. The result points to the positive effect of maker education on the interest of elementary school students in science and creative problem-solving. Therefore, applying the maker education program to online classes for elementary science is effective in improving the interest of students. In addition, further research is required to effectively apply the maker education program to online classes in science.

• The Journal of Korean Association of Computer Education
• /
• v.23 no.2
• /
• pp.65-72
• /
• 2020

The purpose of this study was to examine effects of maker education program using the virtual reality content creation platform on the creative problem solving ability and learning flow of elementary school students. To achieve this purpose, we selected a virtual reality content creation platform that elementary school students can handle and share easily, and analyzed its effectiveness by applying the educational program in which the step-by-step activities of the TMSI model were reconstructed in relation to virtual reality content production education among existing maker education teaching and learning models. Through this study confirmed that the maker education program using the virtual reality content creation platform has a positive effect on the improvement of creative problem solving ability and learning flow of elementary school students.

• 대한공업교육학회지
• /
• v.44 no.1
• /
• pp.162-189
• /
• 2019

The purpose of this study is to develop and apply a Design Thinking-based Maker education program utilizing Arduino for middle school students. The study progress was made in four stages of preparation, development, implementation and evaluation according to the PDIE model. In this study, experts were verified for validity and pre-applied to students to improve the maker education program developed based on literature review. Then, it was applied to middle school club classes to check the effects through analysis of quantitative and qualitative data. In addition, the development of the program was completed by supplementing the improvements found in the course. The results of this study are as follows. First, the topics of the maker education program that can be used in middle schools were selected in consideration of the analysis of the 2015 revised curriculum, methods to using the Arduino, and social interest. Second, the program developed based on the selected topic consists of 4 classes of maker basic learning and 16 classes of design thinking-based maker activities. Third, the developed maker education program had a significant effect in improving STEAM literacy of middle school students, but did not have any significant effect in the interest in technology and orientation towards an engineering career. Fourth, learners were interested in the activities of designing and freely making by themselves, and they positively evaluated the experience of realizing the physical computing with Arduino. In addition, they practiced the spirit of a maker, such as autonomously collecting data and sharing them with colleagues, etc. while acting as a maker.