• Journal of the Korea Academia-Industrial cooperation Society
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• v.13 no.2
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• pp.543-547
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• 2012

The environmental education is more and more important according to increasing environmental problems, but university students don't receive it actively. Actually, environmental education in university is conducted and focused on environmental engineering. In order to have an effect on environmental education for all engineering college students, the course of environmental education consists of various fields of engineering study including environmental engineering. The environmental education categories for engineering college students are determined by using an AHP technique in this study. After educating engineering college students with the developed environmental education course, we evaluated the environmental education performance using the survey on perception level and purchasing data of environmentally consciously products by statistical and RFM analysis.

• Journal of the Korean Society for Industrial and Applied Mathematics
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• v.11 no.2
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• pp.31-40
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• 2007

What is the "new paradigm"? It is impossible express it in one or two words, but if one had to; the closest might be the "holistic approach". The expression can be justified by the fact that the conclusions above lead to a greater intermixing of mathematics with engineering and natural sciences subjects, typically expressed in the form of examples of simplified real problems. They also lead to a greater intermixing of subjects within mathematics so that the courses should have less separation e.g. between symbolic and numerical mathematics. The conclusions also lead to the spreading the mathematics courses throughout all study years, not just the first two years. Of course, this should be done with great care in order to guarantee studies that are logically linked together. The new paradigm also means that the needs arising from industrial mathematics must be taken into account in the contents of engineering mathematics courses. Such topics are e.g. multivariate methods, statistics and use of mathematical software. What are we expected to gain from the paradigm shift? The primary benefit should be in obtaining more productive engineers equipped with a better degree of mathematical preparedness for engineering problems. But in addition, it should also promote more intensive use of applied mathematics and easier communication with professional mathematicians, often needed in complicated industrial problems.?Finally, it can be noted that the new paradigm is in harmony with the basic ideas of the CDIO (Conceive - Design - Implement - Operate) initiative for producing the next generation of engineers [1]. New ideas for engineering education can be found also in the homepage of SEFI (European Society for Engineering Education) [2].

• Journal of Korean Society of Industrial and Systems Engineering
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• v.7 no.10
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• pp.35-45
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• 1984

1. The purpose of the study. The purpose of this study is to suggest the direction of educational curriculum for reinforcement of practical education of business management department in technical college. 2. The method of the study (1) The consciousness investigation of an undergraduate (2) The demand and supply program of human power in enterprise (3) An opinion of enterprise (4) An opinion of professor and school career (specialist) (5) On-the-spot practice (6) An educational curriculum 3. The suggestion and conclusion (1) An enterprise should collect graduate of technical college at the rate of fixed as a foreign (2) An opportunity of a going education and of proceeding to higher school at the rate of fixed should be provided (3) Buss management department in technical college should be subdivided and specialized (4) Industrial - educational cooperation complex should be realized and promoted stroghly.

• Journal of Engineering Education Research
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• v.23 no.4
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• pp.28-36
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• 2020

Capstone design education is essential in the engineering design process according to the certification standards of ABEEK. Capstone design process should be properly trained in undergraduate courses in order to increase the design ability of systems, components and processes within realistic constraints. In this study, a modified design model as a capstone design education model was proposed to reduce the separation between the design process at industrial sites and the design process at university education. The modified design model based on 6-sigma methodology is composed of 6 design steps such as define, measure, analyse, design, verify, and report. Each step has appropriated design contents and tools, and is configured to generate design results. The proposed design model was directly applied to the capstone design class for automotive engineering in Kunsan National University, and it was confirmed that the proposed DMADVR methodology was a very useful design education model to enhance the design ability, teamwork ability and communication skills required by ABEEK.

• Journal of Engineering Education Research
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• v.21 no.2
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• pp.7-16
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• 2018

The purpose of this study is to develop and implement engineering education program by drawing out the educational needs creative engineering design ability. The importance and current level of creative engineering ability were surveyed and analyzed by using 29 sub - factors of creative engineering design ability presented by Kim Dae young et al(2006). from 234 engineering students in 6 universities. As a result, students recognized that all items of creative engineering design ability were important, and their level was generally recognized. The educational needs for creative ability and creative problem solving ability was high and the educational needs for creative engineering design project was relatively low. Based on these results, it is necessary to develop an educational program to enhance creative engineering design ability by considering learner's perception and professional and industrial recognition.

• Journal of Korean Institute of Industrial Engineers
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• v.11 no.1
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• pp.51-61
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• 1985

Major changes of the industrial engineering curricula in U.S.A. were analysed in three stages: 1938, 1958 and 1984. There are tendencies that the traditional plant operation oriented courses are combined and compressed to a few courses while the system oriented courses such as SA, OR, computer applications, man-machine systems are expanding. It will be necessary to organize a study group such as ASEE conducting further studies to meet our needs by upgrading the engineering curriculum for the coming 90's education.

• Journal of the Korea Safety Management & Science
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• v.18 no.4
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• pp.195-209
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• 2016

This research determined priority of quality improvement of public institution's education service by using ASC for importance and applying Topsis, a multi-standard decision-making method simplifying various attributes and scales of evaluation items and deciding the comparative priority for satisfaction and discussed the differences so as to measure the quality of public institution's educational service and examine the priority of education service' quality improvement. This research classified the characteristics of quality improvement. As a result, it's significant to suggest positive direction and method to improve satisfaction and education service's quality from an angle of demander by analyzing educational satisfaction of education service quality of public education institution and effects on the following improvement.

• Journal of Engineering Education Research
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• v.13 no.5
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• pp.66-71
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• 2010

Recently, engineering work become very important for the leaders of the information society for the future knowledge in the 21st century and the goal of engineering education is to prepare people to practice engineering as a profession and also to spread technological literacy, increase student interest in technical careers through science and math education. The College of Engineering (COE) of Korea Maritime University (KMU) aims to be the center of both IT-related high industrial technology and the industries related to port, shipbuilding and the ocean. Especially COE focuses on the educational principles to contribute to the development of the country and the regional communities by educating specialists that have international competitiveness. With the need to expand international collaboration in terms of engineering work, it is proposed to initiate a new state of the Asian-Pacific body of engineering conference. To the extent possible the basic discussion was made to expose elements and supports as full-scale illustration of the engineering conference. The result is a body that evokes multi agreement and joint declaration among members.

• 한국정보교육학회:학술대회논문집
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• 2010.08a
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• pp.135-142
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• 2010

The scope of key competency of engineering majors has been expanded for last decades. Nowadays, not only major knowledge but also extracurricular knowledge such as business, economics, law and so on are regarded as prerequisites for successful performance at work sites. In this context, we defined several determinants of key competency classified into attitude, knowledge and skill, and investigated their relative importance perceived by Korean companies (n=145). Based on the results, the gap between key competency of engineering majors and academic curriculums of universities (n=182) was analyzed. Subsequently, regional difference and qualitative disparity between universities were also revealed.

• Journal of Engineering Education Research
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• v.9 no.4
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• pp.10-18
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• 2006

Today it is critical for all engineers to have the capability of interacting in teams with members of different background and to meet the challenges that they will encounters in their careers. To satisfy such needs multidisciplinary engineering-design courses are attracting more attentions than ever in the engineering education community. In this paper we analyze the learning effectiveness of interdisciplinary design teams in an engineering design course in Dongguk University. The comparison analysis between monodisciplinary teams and interdisciplinary ones demonstrates higher learning effectiveness of interdisciplinary teams. In addition, the student evaluation of learning effectiveness points out that communication skill is one of the most important factors for a successful project. Such results show that multidisciplinary design courses must gain wider acceptance in engineering education and engineering students must have more chances to experience multidisciplinary teamwork.