• Journal of Engineering Education Research
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• v.7 no.1
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• pp.79-86
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• 2004

Outcomes based engineering education is not necessary only for the accreditation by the ABEEK, but the actual improvement and enhancement of the engineering education. Also, it is the new and big trend in engineering education filed world widely. The new methodology for performing outcomes based education has been proposed for engineering education and the practical application for so called 'life-long learning' outcome has been presented. Furthermore, the way to 'close-the-loop' for CQI(continuous quality improvement) in engineering education has been shown.

• 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.

• The Science & Technology
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• v.32 no.6 s.361
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• pp.12-13
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• 1999

우리나라 공과대학의 학생들은 열악한 환경에서 공부하고 있으며 졸업자 대상 설문조사에서 59%가 현장성이 결여된 이론중심의 교육을 실시하고 있다고 지적하고 있다. 이에 우리의 공학교육은 산업체 적응기간을 단축시키고 신기술 조류를 파악하여 시대 변화에 적응력이 강한 공학인을 양성토록 하고, 특히 현장위주의 교육과정을 도입하고 분야별로 다양한 단계의 산학협동 협의체를 구성하여 실속있는 공학교육을 실현시켜야 하겠다.

• Journal of Engineering Education Research
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• v.10 no.3
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• pp.5-20
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• 2007

This study was carried out to analyze the design pattern on engineering design curriculum P University based on the curriculum design model. For this study, the relation model between organizational factors by Drake & Burns(2004) and university curriculum design pattern Toohey(1999) were used as a frame of the analysis. From the analysis, we confirmed following results. Firstly, the relation between the subjects in the engineering design curriculum was designed to acquire the knowledges of facts, topics, and concepts and then to improve low-level skills, broad-range skills, and high-level skills related to engineering design sequently. Secondly, the design pattern of the engineering design curriculum analyzed in this paper is project and problem based structure. This result will be useful for reviewing and improving the relation between engineering design curriculum.

• Journal of Engineering Education Research
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• v.11 no.4
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• pp.5-10
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• 2008

Conventional engineering education models have fallen to give satisfactory results to enterprises. So this paper deals with the new engineering education system, Engineering House, to overcome it. EH is made of three spaces and three concepts. Concept means system. Three concepts are things about a education program, a research cooperation, a open-door policy of EH facilities. First of all, Education system for undergraduates is most important of all. We intend to give them chances for real engineering experiences. Specialist from companies are participated in the education. The second is a research network. EH is managed by two or three professors together and their researches are carry out with companies's researcher. Key-point is doing all together. The third is service system for regional enterprises. EH's facilities are opened. Our students and professors are supporting directly. Mainly high price measuring machine is used. Like these, networks with companies are very helpable for undergraduate's educations and job connections. These are the work based learning system. Engineering House system look forward to getting to good program for undergraduate, based on the co-operation between university and enterprises.

• Journal of Engineering Education Research
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• v.12 no.4
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• pp.93-101
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• 2009

Many engineering professors are forced to execute ABEEK activities. Engineering professors are evaluated by their educational, research and service activities, but are mainly by their research papers published in professional journals. The gap between the duties and the evaluation criteria exists among engineering professors. This paper deals with the possible ways of including the ABEEK activities in the engineering professor evaluation system. Among the five ways suggested for a simple survey, tenured professors prefer to reduce the lecture time but junior professors prefer to reduce the research burden for the benefit from executing ABEEK activities. Based on logical reasoning and the preference among the surveyed professors, ABEEK related activities may be included in the educational part for the professor evaluation system before the ABEEK system is matured. However, ABEEK related activities have to be converted to the duties of engineering professors in the long run as in the US universities.

• Ingenium
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• v.5 no.3
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• pp.49-56
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• 1998

• The Journal of Korean Institute for Practical Engineering Education
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• v.1 no.1
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• pp.61-65
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• 2009

Due to the less variety of experiment equipments for engineering education, the development of designated educational equipment is really in urgent need at most time. Especially for the in-depth engineering major subject, vibration engineering, there are almost no related educational equipments in Korea. Accordingly, in order to simulate the vibration phenomena occurred in the actual field, the development of educational equipment for vibration engineering theory and experiment education is required. This paper introduces four development educational equipments developed in graduated research works, which are critical speed test educational equipment, balancing machine educational equipment, isolation educational equipment using eddy current and active vibration isolation educational equipment. Through using them in experiment lesson, the utilization and practicality of educational equipment are verified. The proposed improvement for future development and application of educational equipment is shown in addition.

• Journal of Engineering Education Research
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• v.9 no.3
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• pp.78-89
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• 2006

The economic depression during the last decade of the 20th century caused various drastic changes in the social structure, including employment and educational systems. Japanese universities have devoted much effort to research activity and the development of teaching methodology for engineering education was not a major effort for professors. Decrease of 18 years old population, however, forced universities to change this attitude. University education is no more for only elite but is becoming very popular among young people. Another impact came from the 'globalization'of industrial societies such as establishment of WTO and APEC. Japan Accreditation Board for Engineering Education (JABEE) was established to cope with both domestic and international problems in 1999, and JABEE was admitted as a full signatory member of the Washington Accord in 2005. The Professional Engineer Law was amended linked with JABEE. The importance of engineering ethics has been recognized with these social structure changes. Japanese Society for Engineering Education (JSEE) is contributing for reformation of Japanese engineering education through its activities including supporting JABEE. This paper describes the problems now Japanese engineering education is facing and the role of JSEE in order to reorganize the engineering education in Japan.

• Journal of the KSME
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• v.53 no.12
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• pp.49-53
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• 2013

기계공학의 교육은 기계공학 연구분야의 다양화와 진보에 발맞추어 4대 역학, 설계, 실험 등의 전통과목을 중심으로 다양한 각도로 진화하고 있다. 특히 최근 기계공학 기반의 의용생체공학(Biomedical Engineering) 연구활동이 활발해짐에 따라 생명과학학문과의 접목이 다양한 각도로 시도되어 교육 되는 추세를 바탕으로, 이 글에서는 이와 관련된 기계공학교육의 선진화에 대해 소개하고자 한다.