• Journal of Engineering Education Research
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• v.16 no.2
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• pp.78-85
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• 2013

An 'Introduction to Creative Engineering Design' course at College of Engineering at Chungnam National University is required for all freshmen. The objective of this course is to educate the freshmen with basic engineering design concepts and experiences in creative problem-solving approaches. It provides the students learning opportunities in solving engineering design problems through team efforts and creative approaches. Thus, this course emphasizes creative ideas and thinking, engineering design experiences to students over the course. This study presents the syllabus, the examples of PBL (problem based learning)-related activities as a team, and the results of the course evaluation and outcomes. Based on the results of this study, we can conclude that overall this course using PBL method had significant positive effects on the course outcomes and the creativity of the engineering freshmen in the department of environmental engineering at Chungnam National University. However, there are still efforts to be needed to improve the PBL-related activities in the course, including students' workload, financial supports, and team work.

• 대한공업교육학회지
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• v.39 no.1
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• pp.128-142
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• 2014

The purpose of this study was to provide a basis information for the education direction of 'creative engineering design' lesson to highschool students and pre-technology teachers by analyzing pre-experienced the d epartment of technology professors' recognitions, according to the newly opened unit 'creative engineering design' in 2009 revised highschool technology home economics education curriculum. The survey questionnaire was composed of 34 questions and collected from 16 department of technology education professors. The data was analyzed by SPSS program. The results of study were as follows : First, in 'creative engineering design' educational objectives, the highest average level(M) of response was problem solving ability, the opportunity of engineering experience and creativity improvement were followed. In the response about 'creative engineering design' educational contents, the average level(M) of the creative thinking method education was the highest(3.94). and the following important level was the write training education for presentation. Second, in the 'creative engineering design' educational areas, the professors preferred the idea conception, design, and production manufacturing area. In the teaching learning method, the average level(M) of design-based learning method was the first. and PBL, problem solving method were favored Third, in the 'creative engineering design' lesson manage, the secure of practice room and material cost, and the check of the progress situations were needed preferentially. In the education assessments, various and combined assessment preferred such as production, portfolio, and presentation. Fourth, in the pre-technology teachers' lesson of the university course, the product manufacturing level was preferred production to improve uncomfortable thing in life. The major difficulty in product manufacturing was the lack of major knowledge and product conception.

• Journal of Engineering Education Research
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• v.11 no.2
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• pp.32-41
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• 2008

The paper deals with the introduction of creative engineering design education in School of Mechanical Engineering, Yonsei University. The course is referred to as Creative Mechanical Engineering Design (1) for 2nd-year undergraduates who newly enter a major in mechanical engineering. This course emphasizes creative thinking and practical experiences to students by learning engineering design skills, realizing their idea through problem based learning (PBL) and design project and recognizing actual results of a product. The paper describes course contents, and discusses students’ responses to lecture, PBL and design projects.

• Journal of Digital Contents Society
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• v.16 no.1
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• pp.53-61
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• 2015

Recently a demand for student-centered creative design education is rapidly growing, but well organized design curriculum and design practice complex are not established properly in most universities. In this paper, we present a scheme for design-centered engineering curriculum and a method to build a design practice complex for creative design education which it is currently attracting a lot of interest in engineering education. Based on the analysis of the conventional curriculum of electronic engineering, a new curriculum and a design practice complex that is suitable for enhancement of professional practice capability and by which an effective engineering education through introductory design, element design and advanced design steps can be performed is described.

• Ingenium
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• v.11 no.4
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• pp.49-54
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• 2004

입문공학$\rightarrow$전공기초$\rightarrow$CAD$\rightarrow$해석프로그램$\rightarrow$센서 설계로 구성되는 흐름도로부터 각전공 능력은 전문기능보다는 공학의 가치를 부여하는 창희적 설계 역량에 중점을 두어야 함을 보였다. $\blacktriangleright$결국 담당 교수나 흐름 체계를 구성하는 학제는 일반적이고 보편적인 공학 설계 기술을 포함하는 고유하고 창의적인 새로운 교육체계를 스스로 계획해야 한다. $\blacktriangleright$담당 교수가 꾀하는 교육은 학부 모든 학년을 관통하는 일관성을 가지고 이론과 설계 실습을 병행한 형태로 수행해되어야 한다. $\blacktriangleright$공학 교육에서 현장성을 배제하면 큰 실효가 없으므로 제품과 생산성에 대한 설계 또한 중요하다$\blacktriangleright$이것은 산업체 현장 적응성을 키우는 교육 목적에도 부합하지만 학생 스스로 창의적 아이디어를 도출하고 이것을 제품으로 만들어내는 역량을 도모하는 것에 더 큰의미를 두는것이 바람직하다. 현대 공학기술이 빠르게 발전하는 것을 고려한다면 담당교수와 교육흐름 체계는 항상 변화를 추구해야 한다. 이것이 공학 교육을 통한 공학 설계 창의성 개발의 성공을 이룰 수 있는 기반인 것으로 판단된다.

• Journal of Convergence for Information Technology
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• v.9 no.5
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• pp.130-136
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• 2019

Recently, the importance of creativity and problem-solving skills are being emphasized in engineering education. In particular, research is actively being conducted on learning models considering practicality or applicability in practice and education among many creative problem-solving methods. The objective of the present study is to develop a teaching and learning model and verify its effects in order to promote creative thinking and problem-solving skills using the TRIZ Contradiction Analysis. This study led the participants to obtain basic knowledge of creative engineering design through the creative engineering design course for freshmen at an engineering college, and come up with ideas and solutions using the TRIZ Contradiction Analysis. A survey was conducted and analyzed to verify the effectiveness of education using the proposed teaching and learning model, and as a result, the effectiveness of education has been proven by an average of 89 positive responses. Follow-up research is needed on improved application models so that the proposed learning model can be applied to various subjects.

• Journal of Engineering Education Research
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• v.9 no.2
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• pp.5-20
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• 2006

This study is a part of the research on measuring and developing the creativity of college students, especially of engineering college students. This study was done in the class of imaginative design engineering which was a creativity training program integrated with engineering majors, including idea generation skills, creative problem solving, patent applications, design, manufacturing and marketing. Participants in this program were 75 freshman strudetns in engineering college. The achievements in this program were measured by the figural form of TTCT(Torrance Tests of Creative Thinking), as well as MBTI(Myers-Briggs Type Indicator). The results are as follows. First, TTCT scores of the participants in imaginetive design engineering increased significantly. Second, type indicator scores of MBTI varied significantly, to the directions of extrovert, feeling, and perception. Therefore, according to the results of this study, we can conclude the imaginative design engineering class had significant positive effects on the creativity of the engineering students.

• Journal of Engineering Education Research
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• v.14 no.4
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• pp.3-10
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• 2011

This study examines the possibility of a learning environment design model for enhancing creativity in engineering education. Recent studies about the online support system and the blended learning pertinent to creativity have provided us with some new perspectives on how to teach the creativity in engineering college. A learning environment design model was developed to enhance the creativity of the engineering students. A model was developed by following three steps: finding out the general principles for enhancing creativity in engineering education by reviewing the relevant literature; extracting the theoretical components for the model by categorizing the general principles; and finally, developing specific guidelines based on those theoretical components. Seven general design principles and three theoretical components could be identified, and a set of specific design guidelines was suggested. The result of this study is significant in terms of guiding the future development projects for creativity education.

• Ingenium
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• v.8 no.1
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• pp.9-13
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• 2001

• Journal of The Korean Association For Science Education
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• v.37 no.4
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• pp.719-730
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• 2017

The purpose of this study is to investigate how engineering design-based STEM research experience affects gifted students' creative engineering problem-solving propensity and attitude toward engineering. The students' creative engineering problem-solving propensity and attitude toward engineering were measured before and after the STEM research experience. The pre-/post-tests results were analyzed by paired t-test with the significance level of p <.05. The conclusions of the study are as follows: First, the engineering design based STEM research experience had a positive effect on the students' creative engineering problem-solving propensity. Over all, the average score of the creative engineering problem-solving propensity increased significantly (p <.05) after the STEM research experience. Second, the average score of gifted-students' attitude toward engineering had increased significantly after the integrated STEM research activities (p <.05). In addition, we analyzed the difference between pre-post results of both instruments based on the gifted students' desired career paths (natural science and engineering) and gender. The result shows that the students' career paths or gender did not affect the results in most of the sub-categories in both instruments. However, the STEM research experience had more positive effect on the female students than male students in term of their 'engineering design ability', which is one of the sub-categories of the creative engineering problem-solving propensity instrument.