• Journal of Engineering Education Research
• /
• v.10 no.4
• /
• pp.29-42
• /
• 2007

The 'Program outcomes and assessment' is an important criterion evaluating of engineering education in accreditation of engineering education. ABEEK prescribes program outcomes which are the basic capabilities in the application of the fundamental knowledge and practical tools of the engineering field. Also ABEEK asks to prove that all programs are constructed a proper educational curriculum and are satisfied program outcomes and CQI. Therefore program outcomes must satisfy both two key points. First, as a quality control aspect, engineering programs must prove that graduates of accredited programs can perform twelve capabilities. Second, as a continuous quality improvement aspect, accredited programs have to upgrade a level of engineering educational quality. Consequently the purpose of study is to introduce a new model for CQI and QC systems, implementing strategies as an actualizing of program outcomes.

• Journal of Engineering Education Research
• /
• v.9 no.4
• /
• pp.19-27
• /
• 2006

HIU(Hong-Ik University) has inculcated students with values necessary to serve society as independent, creative, and cooperative professionals. In HIU, students are encouraged to foster independent thinking, free from the influence of others, but are forged to cultivate their creativity in harmony with the knowledge and experience of others. In the department of MSDE(Mechanical and System Design Engineering), students are educated via three major courses for targeting engineering design, Creative Engineering Design (freshman), Design Process (Senior), and Creative Product Development (Junior). All these courses are based on personal tool exercises for design software and hardware and team-project group activities of the students with other team members. This paper will briefly discuss the main focuses of these courses and case studies of the teaching results.

• Journal of Engineering Education Research
• /
• v.15 no.3
• /
• pp.12-21
• /
• 2012

The purpose of this study is to verify the effects of mastery goal orientation and time management ability on job search self-efficacy in the vocational education of engineering college students. A total of 52 samples were analyzed for this research. The result indicated that mastery goal orientation had positive effects on all sub-variables (job ability self-efficacy, career goal setting self-efficacy) of job search self-efficacy significantly. But time management ability had positive effects on career goal setting self-efficacy. And there are no significant differences in mean comparison of mastery goal orientation, time management ability, and job search self-efficacy according to gender and residence area. In addition, the interview results of engineering college students' perception of career, the understanding of vocational education, and job search self-efficacy were analyzed.

• Proceedings of the Korea Information Processing Society Conference
• /
• 2009.04a
• /
• pp.531-534
• /
• 2009

본 연구에서는 공학교육인증에서 구성원의 의견이나 요구사항을 효과적으로 파악하기 위한 설문조사 수행 절차와 웹 기반 설문시스템의 기능 및 시스템 아키텍처를 제안하고 제안된 프레임워크에 따라 웹 기반 설문시스템을 개발한 방법을 소개한다. 본 설문시스템은 설문문항을 문항은행식으로 설문대상자별, 설문 영역별로 DB화하여 계층적으로 관리함으로써 체계적인 설문문항의 관리는 물론 웹 기반 설문지 작성의 노력을 줄일 수 있다. 그리고 웹상에서 전자메일을 통하여 설문조사를 수행하여 비용, 시간, 에러 발생을 줄일 수 있다는 면에서 큰 장점을 갖고 있으며, 설문조사 결과를 다양한 방식으로 분석하여 도식적 표현을 통한 보고서 작성 기능을 제공한다.

• Journal of Engineering Education Research
• /
• v.15 no.3
• /
• pp.47-58
• /
• 2012

The purpose of this paper is to verify the education effects of program for engineering students and extract the essential components to be included in the learning contents. For this, we investigated the lecture contents critically and analyzed the evaluation result of questionnaire to examine the students' learning satisfaction and learners' needs concerning the effectiveness of course. The survey using two types of questionnaires was conducted with 210 junior and senior students taking lectures of ${\ll}$Presentation and Debate Skills${\gg}$ in the college of engineering at Pusan National University. According to the evaluation result, students experienced various speech education's effects concerning (1) verbal components, (2) non-verbal components, (3) problem solving competence, (4) teamwork skills, etc. On the other side there have been pointed out as problems in the ${\ll}$Presentation and Debate Skills${\gg}$ class, such as (1) a large number of assignments, (2) insufficiency of more refined evaluation method for the individuals and (3) a well-balanced arrangement between 'theory' and 'practice' was needed. However more importantly, the individual students can not do practice sufficiently owing to the large scale of class. Therefore the various and effective ways to help students improve their communicative competence have to be developed further. Finally, there have been extracted several essential components to be included in the class and implications for ameliorating the class were discussed and suggested in detail.

• Journal of Engineering Education Research
• /
• v.12 no.1
• /
• pp.64-72
• /
• 2009

The objective of the current study is to establish the CQI procedure of leadership outcome education, which is emphasized in engineering education accreditation. Leadership includes many program outcomes, especially soft skills, such as communication skill, team work skill, and etc. This paper studied leadership education program in Yeungnam University. In particular, this research was conducted by using focus group interviews with experts and working level staffs of relevant organizations for the analysis of Yeungnam University curriculum and non-curriculum courses related to leadership education and for the preparation of leadership education CQI method. In addition, we conducted leadership competence diagnosis, leadership education demand survey and satisfaction level survey on the leadership camp participants. Interviews with experts, lecturers and focus group of Dale Carnegie Research Institute Daegu branch that administered the progress of leadership camp were conducted along with analysis of education contents through non-participation observation method during camp period and participant students interviews. The conclusions are summed up as follows: To educate global leaders in true meaning, first, psychological level competence strengthening method and study completing ability improvement method should be considered simultaneously. In particular, for non-capital region universities, emphasis should be given to education for self-confidence and vision establishment. Second, leadership education methods of mid/long term and systematic curricular and extra-curricular type should be pursued. For instance, with the use of engineering design subject completing system, leadership education can be consolidated to engineering subject courses with engineering design projects or the system of mentor-pupil among earlier leadership camp participants and later participants may be utilized. Third, it is determined necessary to pursue and realize practical methods of conducting various intramural leadership related education activities in mid/long term perspective by organizing leadership education advisory group consisting of major, departments and intramural and extramural relevant organization authorities that focus on leadership education.

• Journal of Engineering Education Research
• /
• v.9 no.2
• /
• pp.34-51
• /
• 2006

In knowledge based society of 21c, engineers require not only their own speciality but also engineering basic competency such as creative thinking, the ability of working together, the ability of communication. Engineering colleges responsible for educating engineers consider developing curriculum including Engineering Basic Competency which is reflecting the needs of the times. By utilizing the accreditation programs of engineering education, UK-SPEC of UK Engineering Council, EA(Engineering Australia) standards/handbook of the Institute of Engineers Australia, O*NET of U.S. Occupational Network, this study generates core elements of engineering basic competency to prove the capability of engineering basic competency required to desired engineers. Core constituents derived from the study were categorized into 3 major areas of the basic engineering literacy in Humanities and Social Sciences(HSS), the ability of Creativity Engineering Design, Career development and each category and constituents were surveyed and checked by engineers in the field to deduce engineering basic competency that should be educated in the engineering college.

• Journal of Engineering Education Research
• /
• v.10 no.2
• /
• pp.5-18
• /
• 2007

This paper presents a concept of training coursework for engineers in cooperation with the industry combining system, comparing Korea with France. The students, after first two years in a university for the foundation/basic courses, will be centered in the industry, rather than at an academic institution, where field training engineering coursework will be offered in structured or capstone design(problem based learning) formats through the industry. This study on the improvement of the concept has several advantages including the followings ; 1) Industry hiring local-area students who have the potential to be long-term employees; 2) Industry's immediate access to employees with developing engineering skills; 3) On-the-job training reduced industry training costs after graduation; 4) More effective learning through observing complex operations; 5) Students and industry input for continuous improvement of the curriculum; 6) Greater amenability on the part of industry to actively participate in research and development; 7) Increasing in the flow of real research problems for engineering. Finally, the implications for student quality, accreditation, assessment of partnership, academic freedom, and fundraising for scholarships and researches are discussed briefly.

• Journal of Engineering Education Research
• /
• v.20 no.5
• /
• pp.14-22
• /
• 2017

This research aims to explore characteristics of engineering students' thinking styles compared with those of undergraduate students in Korea. For this, we investigated whether there were differences of thinking styles in undergraduates according to majors and gender. 'Thinking styles', one individual-difference variable, has received particular attention in recent years. Styles are not abilities but rather refer to individuals' preferred way of applying their abilities in cognitive tasks(Sternberg, 1988). There has been much research(domestic and foreign) about thinking styles and their related factors. However, to date, little attention has been paid to engineering students' thinking styles, and few studies have dealt with them together with undergraduate students' of various majors. This study was conducted with a total of 865 students from 3 universities, and thinking styles have been measured online. Our findings show that firstly, there were significant differences in undergraduate students' thinking styles by majors. Engineering students scored significantly higher in external style, students majoring in humanities scored higher in executive, hierarchical and conservative styles, and students majoring in arts scored higher in legislative, internal and liberal styles. Second, there was a significant difference in students' thinking styles by gender. Male students scored significantly higher than females in judicial, global and external styles. Whereas female students scored higher than males in hierarchical and internal styles. Third, there was a significant difference in engineering students' thinking styles by gender. Male engineering students scored significantly higher than females in judicial and monarchic styles. Whereas female engineering students scored significantly higher in hierarchical styles. Based on these findings, it is expected to apply thinking styles to develop related courses as well as programs for engineering students.

• Journal of Engineering Education Research
• /
• v.21 no.4
• /
• pp.53-62
• /
• 2018

The purpose of this study is to investigate the current conditions of the domestic and foreign curricula in the field of chemical engineering and to draw implications. The results of the study are as follows. Most of the domestic research universities (including non-certified universities) have curricula organized within the scope of the ABEEK certification, which is the minimum standard guide for chemical engineering curricula. However, we are concerned that chemical engineering education in some domestic universities may lack in education quality and program relevance. Graduates from these universities may not have equivalent qualifications as international graduates. It is considered that most of the 12 domestic universities organize their subjects according to the certificate of accreditation standard and to the traditional subjects of chemistry in the 'Department of Chemical Engineering' or 'Department of Chemical and Biological Engineering Chemical and Biological Engineering'. However, due to the increase in the number of overlapping subjects with other majors because of the movement towards academic diversity, the integrity of the chemical engineering curricula is at risk. In addition, after surveying the major and research areas of the department professors, it has been found that there is a shortage of professors who have majored in chemical engineering. Therefore, there is a concern that students may lack understanding of the core principles of chemical engineering. The results of the analysis of the curricula of overseas research universities (including non-certified universities) are as follows. Although the chemical engineering industry in developed countries like the United States and Europe is advancing and changing very quickly, the chemical engineering education in these countries is highly focused on traditional subjects and other related subjects in order to cultivate traditionally trained chemical engineers. The Department of Chemical Engineering at overseas universities still maintains the academic integrity of the chemical engineering field. This is a significant suggestion for our country. On the other hand, domestic universities are changing the name of their chemical engineering major, or even if the name is maintained, they are fusing their curriculum with other majors such as material engineering. Therefore, it is very necessary at this point to start a discussion regarding the integrity of the department of chemical engineering in Korea. We hope that the departments of chemical engineering in domestic universities maintain the integrity of traditional chemical engineering while operating the curriculum within the scope of the standards of the engineering education certification system.