• 한국산학기술학회논문지
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• 제7권4호
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• pp.554-558
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• 2006

금형산업체의 직무능력 요구에 적응하는 산업현장과 연계된 실무능력 향상을 위한 대학의 금형기술 교육이 필요하다. 특히, 취업 후 회사의 사전교육 없이 직능별 업무에 투입 시킬 수 있는 창의력 있는 우수한 전문기술인을 양성하여 교육의 낭비적 요소를 제거하고 산업체 및 국가의 기술경쟁력을 강화 시키며 학생은 인력수요자인 산업체로부터 요구하는 현장실무에 접근성 높은 교육을 받아 취업이 보장되어야 한다. 또한 산업체는 전문인력 수급의 어려움을 해소 시켜주기 바라고 있다. 이상의 요구를 충족시킬 목적으로 금형산업체와 연계된 금형설계공학전공의 교육과정 개발을 수행하였다.

• 교육녹색환경연구
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• 제12권3호
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• pp.50-57
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• 2013

The education of building services field at university is not enough, although the field has become to be very important in architectural engineering. This lack of education is one of the reason that the level of domestic building services field is lower than that in developed countries. Present conditions of related laws, fields of work after graduation and education at university in building services field have been studied, and education conditions have been investigated divided into four-year architectural engineering course and five-year architecture course. Though building services field has become more important at university education, the number of credits and professor of the field is still small than other fields of architectural engineering. More practical curriculums are necessary to meet the expectation of companies, and it will be one of the method to meet it that criteria of curriculum constitution is according to ABEEK(Accreditation Board for Engineering Education of Korea) in more architectural engineering department.

• 공학교육연구
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• 제3권1호
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• pp.84-91
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• 2000

현대는 시스템화되고 융합화되어가는 시대이다. 시스템이 다른 시스템과 모여 융합되고, 이들이 다시 커다란 형태의 시스템으로 융합되어 다시금 하나의 거대한 시스템이 되곤 한다. 전자소자는 개별소자시대를 지나 소자들이 융합되어 시스템으로 통합되는가 하면 반도체집적화로 시스템화되고 있다. 이 연구는 전자공학 2년제 교육과정을 시대에 따라 시스템 및 반도체 설계 특성화의 방향으로 모듈화하고 학제간의 유기적인 융합을 고려하여 재구성하였다. 이 교육과정은 다학기제의 모듈화 모델로 개발하여 산학연계 현장교육 및 심화교육 등을 가능토록 개발하였다.

• 실천공학교육논문지
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• 제11권1호
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• pp.9-15
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• 2019

졸업 연구작품 제작에 참여한 학생들과 참여하지 않은 학생들에게서 인식되는 창의적 능력, 창의적 성격, 창의적 리더십 및 융합적 사고와 관련된 역량을 파악하였다. 창의적 능력에서는 참여 학과 학생들에게서 다양한 전공 분야의 이해를 통한 아이디어 창출에 대한 부분의 교육에 더 많은 교육과정과 비교과 활동의 운영이 필요하나 전체적으로는 비참여 학생보다는 높은 긍정적 결과를 얻었다. 창의적 리더십 및 융합적 사고에서는 종합설계와 졸업작품을 진행한 학생이 더 긍정적인 면을 보여주었으며 미참여 학과 학생들은 고등사고, 복잡한 현상의 논리적 분석 및 전체적 파악 등에서 창의적 역량이 부족함을 나타내었다.

• 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.

• 한국실천공학교육학회논문지
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• 제3권1호
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• pp.32-39
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• 2011

본 연구에서는 설계교과과정 및 HRD교과과정의 체계 및 운영, 실험 실습의 운영의 개선방안을 제안한다. 구체적으로 "창의성 향상을 위한 교과과정 개선", "현장성 향상을 위한 교과과정 및 교육방법 개선", '실험 실습 교과과정 운영체계 개선"에 대한 방안을 제안한다. 특히, 경험학습에 기초한 설계교과과정과 HRD교과과정과의 통합적인 운영 가능성을 제안한다.

• 한국CDE학회논문집
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• 제9권4호
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• pp.334-350
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• 2004

Until now, architects have used traditional methods in order to develop architectural forms and use a digital technology as presentation tools. The field of digital technology has been expanded to control easily architectural data, eventually leads to the creation for creative ideas, which were belong to mainly designer's talent. It has been educated by using digital tool in foreign universities but in our case a little university try to do. So we need an adequate curriculum and educational media because of digitalized data, originated architectural form and reduction of time and money. In this paper, as it is surveyed the present situation of architetural education by using digital tool in domestic and foreign country, it can be used as the fundamental data that architectural education by using digital tool is initiated In our universities.

• Transactions on Electrical and Electronic Materials
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• 제17권5호
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• pp.280-288
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• 2016

Microelectronic product consumers may already be expecting another paradigm shift with smarter phones over smart phones, but the current status of microelectronic manufacturing engineering education (MMEE) in universities hardly makes up the pace for such a fast moving technology paradigm shift. The purpose of MMEE is to educate four-year university graduates to work in the microelectronics industry with up-to-date knowledge and self-motivation. In this paper, we present a comprehensive curriculum for a four-year university degree program in the area of microelectronics manufacturing. Three hands-on experienced-based courses are proposed, along with a methodology for undergraduate students to acquire hands-on experience, towards integrated circuits (ICs) design, fabrication and packaging, are presented in consideration of manufacturing engineering education. Semiconductor device and circuit design course for junior level is designed to cover how designed circuits progress to micro-fabrication by practicing full customization of the layout of digital circuits. Hands-on experienced-based semiconductor fabrication courses are composed to enhance students’ motivation to participate in self-motivated semiconductor fab activities by performing a series of collaborations. Finally, the Microelectronics Packaging course provides greater possibilities of mastered skillsets in the area of microelectronics manufacturing with the fabrication of printed circuit boards (PCBs) and board level assembly for microprocessor applications. The evaluation of the presented comprehensive curriculum was performed with a students’ survey. All the students responded with “Strongly Agree” or “Agree” for the manufacturing related courses. Through the development and application of the presented curriculum for the past six years, we are convinced that students’ confidence in obtaining their desired jobs or choosing higher degrees in the area of microelectronics manufacturing was increased. We confirmed that the hypothesis on the inclusion of handson experience-based courses for MMEE is beneficial to enhancing the motivation for learning.

• 공학교육연구
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• 제25권4호
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• pp.3-12
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• 2022

The purpose of this study is to analyze the educational effects of convergence Capstone Design activities. To this end, it analyzed the difference in engineering design competency before and after completing the curriculum in the Capstone Design process, where students from various majors team up, and analyzed the impact of convergence Capstone Design activities on engineering design competency. A survey study was conducted on experimental participants to collect data on individual characteristics and engineering design competency, and to analyze differences by background variable. As a result of analysis according to background variables, the engineering design competency was improved afterwards than before, except for some competency areas.

• 공학교육연구
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• 제26권6호
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• pp.30-39
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• 2023

This study was conducted with analyzing the perceptions of universities and industry regarding need analysis, curriculum design-implementation-outcomes, and the educational environment of the university evaluation institution from an industry perspective. First, as a result of analyzing the importance and implementation level of needs analysis, universities and industries recognized 'industrial trends in related fields' as the most important, but both groups perceived the implementation level to be significantly low. Second, as a result of analyzing the importance of implementing a curriculum based on industry needs, there was a difference in that universities recognized the 'adequacy of curriculum implementation based on industrial needs' and industries recognized the 'field training participation rate' as the most important. Third, as a result of analyzing the importance of curriculum outcomes based on industrial needs, it was found that both groups recognized 'field connection of major curriculum' as the most important. Fourth, as a result of analyzing the importance of the industry-university cooperative educational environment, it was found that both groups recognized 'construction and operation of experimental.practice educational facilities and infrastructure' as the most important. In short, the results of this study are expected to resolve the problem of mismatch between universities and industry in terms of talent development and education, and contribute to the effective implementation of the university evaluation institution from an industry perspective.