• Asia-Pacific Journal of Business Venturing and Entrepreneurship
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• v.16 no.6
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• pp.177-196
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• 2021

In the era of the 4th industrial revolution, high technology is causing many changes in modern society and economy. Among them, changes in industries and jobs require new competencies of future human resources. As an educational alternative to these changes, maker education and design thinking methods are spreading around the world, and it is necessary to actively apply such education in university curriculum. Therefore, this study examines the effects of the maker education using the design thinking method on the learners' competencies required as future human resources and, relationship between the development of university students' entrepreneurial competencies and learners' competencies. And the purpose of this study is to contribute to the vitalization of entrepreneurship education for university students by suggesting an educational model. For this purpose, this study investigated the prior research on maker education/environment and design thinking methods to examine concepts and characteristics, and analyzed the influences between maker education/environment and design thinking methods and the development of learners' personal, social and technological capabilities. In addition, this study analyzed the relationship between learners' developed capabilities and university students' entrepreneurial capabilities, and based on the results, suggested directions and conceptual models for education that combine maker education/environment and design thinking methods. In conclusion, maker education/environment and design thinking methods in university education have a positive effect on the cognitive, social, and technological development of learners, and this has a significant relationship with the factors of personal, social, and technological dimensions of university students' entrepreneurial competency. It is analyzed that it has a positive effect on the promotion of entrepreneurship activities of university students. Therefore, it is judged that university's interest and support should be given to the vitalization of maker education using the design thinking method for university student entrepreneurship education and future human resources nurturing.

• Journal of the Korea Convergence Society
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• v.12 no.3
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• pp.61-67
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• 2021

The purpose of this study is to demonstrate how EFL learners can overcome the limitations of traditional classes and practice communication through the learning activity model. As a research method, it was conducted from March to June 2019 to develop and derive strategies and guidelines through model development, validation, and application. After two validity tests, the model was applied to the experimental group, resulting in an increase of self-direction, engagement, problem-solving, and participation. Moreover the post results showed significant results in all fields, the usefulness of this model was confirmed. However, continuous follow-up research is needed, including the development of software that can easily apply AI related to English learning to classes, and the presentation of convergence activities with more systematic maker education in learning activities.

• Journal of The Korean Association of Information Education
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• v.22 no.2
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• pp.231-238
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• 2018

Software education has started as a compulsary subject or part in elementary, middle and high school, but there is a limitation for using the physical computing toolkit and instructional guidelines that teacher can use. The purpose of this study is to propose a computing education program using a physical computing toolkit called the Micro:bit. The novel instructional model is called "MDIAP" which consists of five stages : Motivation, Demonstration, Imitation, Application, Presentation. Instructional process is presented in spiral, consisting of basic micro-bit sensors, and maker's learning using additional sensors and actuators. This study will help students to enhance creative computational thinking through the MDIAP instructional activities.

• Annual Conference of KIPS
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• 2017.11a
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• pp.557-559
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• 2017

4차 산업으로 효율적인 진입을 위해 학교현장에서는 코딩교육을 하고 있다. PC앞에서 모니터에 의존하여 변화 없는 코딩 교육은 주입식 교육을 벗어나지 않을 뿐만 아니라 몰입도가 떨어지게 된다. 이를 해소 하고자 로봇을 만들고 프로그램 하여 성능평가를 하여 스스로 이해하고 집단 경기를 통해 재미와 학습을 효율적으로 코드를 익히기 위한 로봇 교구를 개발하고 실험을 통해 검증하고자 한다.

• Journal of the Korean Society for information Management
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• v.31 no.2
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• pp.143-171
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• 2014

This study proposes to analyze the concept and introduction of infinite creative space (makerspace) to redefine the roles of existing library spaces. This study also attempts to formulate a suitable program for public library makerspaces by analyzing case studies. Literature review and case study methods are used for deriving the makerspace concept, the evolution of makerspace, the implications posed by makerspace operation domestically and abroad, and the utilization of makerspace. Finally, we suggest story creation programs, topic-based programs reflecting the library characteristics, professional mentoring programs, expert consulting programs, various training programs, patent application support programs, incubator programs, and so on.

• Journal of Fashion Business
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• v.28 no.5
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• pp.124-140
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• 2024

This study aims to design and implement a co-curricular program that integrates an advanced academic course with design thinking and maker education. The goal is to analyze the program's effectiveness and enhance learners' academic achievement. By incorporating digital fashion technology and modular maker activities, the program seeks to strengthen learners' creative problem-solving skills, critical thinking, collaboration, and communication abilities. The research methods included a review of prior studies, the establishment of a modular maker education environment, group discussions, learner interactions, instructor guidance, and satisfaction surveys. The program ran from the second semester of 2021 to the second semester of 2023, focusing on integrating co-curricular activities with academic coursework. It involved problem presentation, data investigation, discussions, modular maker practices, contest presentations, online activity sharing, and feedback sessions. The findings indicate that the program successfully fostered an organic learning environment and supported a learner-centered problem-solving process. Instructors provided guidance and coaching, which contributed to enhancing learners' core competencies and academic performance. The effectiveness of the program was assessed through lecture evaluations, satisfaction surveys, and expert consultations conducted over the past three years. In conclusion, the creative and flexible implementation of the design thinking-based modular maker education program effectively meets learners' diverse needs and offers various learning opportunities. It promotes communication and collaboration grounded in core knowledge, establishes an individualized education environment tailored to each student's characteristics, and aims to enhance students' creative problem-solving skills, critical thinking, collaboration skills, and overall competencies.

• Journal of Korean Elementary Science Education
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• v.40 no.1
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• pp.55-65
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• 2021

The purpose of this study was to investigate the effects of application of maker education program in school maker space on the creative problem solving ability and self-directed learning ability of elementary students. For research, we secured 18 periods of creative experience activities with 5 categories appropriate for elementary students, and integrated these activities into an elementary maker education program in school maker space. Pre and post tests were done before and after application of this maker education program to assess the changing in participants' creative problem solving ability and self-directed learning ability. The results of this study can be summarized as follows: First, the maker education program meaningfully improved the creative problem-solving abilities of elementary school students. Second, the maker education program meaningfully improved the self-directed learning abilities of elementary school students. From interview with the students, we could know that this program made the students have self-confidence and gave them favorable impression.

• Informatization Policy
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• v.26 no.4
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• pp.62-84
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• 2019

The purpose of this study is to present improvement measures for youth activity policies that can change the youth activity programs, equipment and facility operation and leaders in order to cultivate youth capacities suitable for the intelligent information society. For this purpose, we conducted a literature study on the direction of youth activity policy changes with the forecasted social changes in the intelligence information society and an online survey and expert opinion surveys to identify how youth activity facilities are currently coping with the changes and to explore measures to improve youth activity policies. The research identified 17 policy tasks - 9 tasks for the program area, including 1) increase of intelligent information technology related programs, 2) increase of contents related to career resilience in career experience and training programs, and 3) systematic introduction and diffusion of STEAM and Maker education programs; 5 tasks for the equipment and facility operation area, including 1) strengthening cooperation network with external organizations related to the intelligent information technologies, 2) expansion of AR and VR technology application in activity program development, improvement and operation, and 3) big data building in the field of youth activities; and 3 tasks for the leaders area, including 1) extension of information provision on the intelligent information society to the leaders of the activity facilities, and 2) development of job models related to the intelligent information society and job training.

• Journal of Korean Library and Information Science Society
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• v.54 no.4
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• pp.151-178
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• 2023

At a time when libraries are attracting attention as institutions and spaces that can foster future capabilities, this study conducts a general survey of the current status of public library programs related to the future capabilities and investigate the social awareness on libraries and future capabilities through big data analysis. As a result, first, programs are being planned and provided with the keyword of future capabilities, but most of them are limited to makerspace programs, edutech programs, and experience programs. Also, the detailed types of programs are limited to 3D print, coding, AR, VR, etc. In addition, current library programs related to future capabilities are not subdivided by each competency, these programs are provided in the comprehensive sense of future competency. Second, in the awareness survey through big data analysis, education, future capabilities, and libraries were found to be highly frequent, and it was seen that library reading, books, culture, and programs were related to strengthening future capabilities. Accordingly, in the future, libraries need to develop and provide systematic programs to cultivate future capabilities, and there is also a need to develop future capabilities improvement programs that take the life cycle into account.

• Journal of Engineering Education Research
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• v.23 no.3
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• pp.13-19
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• 2020

The purpose of this study is to develop and apply a make-a-thon program based on engineering problem solving for science high school students and to analyze the changes of participating students. Through the consultation of teachers and experts, a team-based and student-driven engineering problem-solving-oriented make-a-thon program was developed. And, the program operated using KAIST's human and material resources for 51 students. Students composed of 12 teams studied 12 topics through an engineering problem-solving process, and the overall program satisfaction was very high, on average 4.62. Through this program, students' creative leader competency have been positively changed, especially in cognitive characteristics (diffusion thinking, problem solving ability) and social characteristics (pursuit of social values). Attitudes toward engineering also changed positively, especially in terms of difficulty of engineering, interest in engineering, gender role in engineering, and engineering and occupational factors. In conclusion, it was confirmed that this program is very effective for science high school students with high demand for engineering education.