• Safety and Health at Work
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• v.15 no.2
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• pp.139-146
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• 2024

Background: This research suggested a method for evaluating health and safety performance as a combination of reactive and active monitoring. Methods: A number of Freedom of Information requests (FoI) were sent to the Health and safety Executive (HSE) and 100 UK universities. Data on the number of reportable incidents, diseases and dangerous occurrences were compiled for UK universities and combined with the Impact Ranking for good health and well-being. A semi-structured survey was used to identify best H&S practices. Subsequently, the effect of workers' involvement in H&S management on RIDDOR and near-miss reports, was investigated using statistical analysis. Results: A ranking of UK universities that perform highly in Health and Safety (H&S) was assembled and selected universities were contacted to identify best practices. Best practices were divided into three categories: team management, roles and responsibilities, and H&S performance monitoring. One of the findings demonstrated a reverse dependence between provision of a refresher training in risk assessments and a number of reported RIDDOR incidents. Conclusion: Health and Safety professionals in the universities may find it useful to reflect on these findings and the identified best practices in order to improve the H&S performance in their own organisations.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.12 no.9
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• pp.3936-3951
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• 2011

This paper aims to analyze factors affecting technology transfer performance according to different types of Korean universities and to conduct the research for the channel and extent of impact between these factors, utilizing 5 - year data for the technology transfers of 110 universities based on the survey by National Research Foundation of Korea. According to the analysis, incentive for researchers is the most crucial factor in local universities and small & medium-sized private universities located in the capital area. And numerical value of intellectual property rights owned by university is the key factor in universities specializing in science & engineering / industry. Also, Big-sized universities are heavily affected by the number of full-time faculty. In case of private universities, government subsidy relating to patents is critical factor for technology transfer performance. The mean value of all variables is a lot higher in participant universities than non-participant ones in CK(Connect Korea) project. In summary, it is suggested that steady financial support provided by the government is required and that mutual cooperation for industry-university-government is also needed for the commercialization of the technologies held by universities.

• Journal of Korea Technology Innovation Society
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• v.1 no.3
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• pp.326-337
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• 1998

This study aims to propose the model of functional specialization for university and the selection of research university in Korea. This study propose that we diversify universities into three categories ; research university, educational university, and technical university. Considering the current research capability and future research prospect of Korean universities, this study found that 8 universities could be classified as research university. However, in light of a balanced regional growth of research system two more universities could be designated as research university.

• World Technopolis Review
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• v.7 no.2
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• pp.74-81
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• 2018

The concept of Smart Specialization represents a major shift in EU structural policy. It recognizes place-specific qualities and particularly locally embedded knowledge to stimulate innovative economic performance. Although there have been debates about the role of universities as innovation incubator, deliberations about their influence in regional innovation strategies (RIS3) in the context of smart specialization approaches are still under-represented. This paper therefore aims at discussing the potential role of universities and related incubator environments in smart specialization strategies, which is illustrated with the help of a German state, Mecklenburg-Vorpommern.

• International Journal of Computer Science & Network Security
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• v.22 no.4
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• pp.13-16
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• 2022

This paper proposes using micro-learning at Saudi universities. It commences with an account of the concept of micro-learning and the difference between micro-learning and electronic learning. Then it touches on the significance, principles, and examples of micro-learning, followed by some micro-learning applications and pitfalls. The paper closes with a proposal for using this learning mode at Saudi universities.

• Asia-Pacific Journal of Business Venturing and Entrepreneurship
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• v.11 no.4
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• pp.91-101
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• 2016

This research focused on searching the specialized factors which affect the cyber universities' performance. This research was approached from three perspective of professor, graduation and employment, and brand image to embody the cyber universities' performance. We drew five factors of contents variety, contents quality, practical orientation of contents, lecture presence, and learning management as the Influencing factors of cyber universities' performance. We proved our research model by analyzing 170 questionnaires which were completed by college students who were studying at cyber universities in China. The results of analysis are showed as below: 1) The level of contents variety can affect the cyber universities' performance; higher level gains better outcomes. 2) The level of contents quality can affect the cyber universities' performance; better quality gains better outcomes. 3) The level of practical orientation of contents can affect the cyber universities' performance; the higher the better. 4) The level of lecture presence can affect the cyber universities' performance; the stronger the better. 5) The level of learning management can affect the cyber universities' performance; the higher the better.

• Journal of Preventive Medicine and Public Health
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• v.12 no.1
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• pp.3-12
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• 1979

A survery was carried out in order to know the status of student health service and student medical insurance of universities and colleges in Korea from 1 July to 30 September. 1978. And the following results were obtained; 1. Out of seventy universities and colleges, 54.8% of them had student health service facility such as student health conte. (30.0%) or health room (24.8%). 2. Out of twenty-seven national and public universities and colleges, 44.4% of them had student health service facility and out of forty-three private universities and colleges, 60.5% of them had student health service facilities. 3. Each of 80.0% of 25 universities, 43.3% of 30 colleges and 33.3% of 15 junior colleges had student health service facility. 4. Major roles of student health service were physical examination (92.1%), health counselling (86.8%), primary medical care (78.9%), tuberculosis control (68.4%), insect and rodent control (52.6%), parasite control(47.4%), water source sanitation (44.7%), and dental health care (28.9%). 5. Out of 21 universities and colleges, 66.7% of them had full time doctor and 81.0% of them had full time nurse for student health center. And out of 17 universites and colleges, 5.9% of them had full time doctor and 33.3% of then had full time nurse for student health room. 6. The range of health fee was varied from 100 won to 1,400 won per student per semester and the average was 520 won. 7. Among 55 universities and colleges, 78.6% of them had carried out annual physical examination in 1977 and the rate of physical examination was 57.4%. 8. Out of 70 universities and colleges. 45.7% of them had tuberculosis control program and the prevalence rate was 6.0 per 1,000 students. 9. Student medical insurance program was developed by ten universities and one college among 25 universities and 45 colleges. 10. Student medical insurance benefit was varied according to university and college; the reduction rate of medical fee was 20% to 80% for not only in-patient but also out-patient. 11. The upper limit of pay claim was varied according to the university and college from 5,000 won to no-limitation for out-patient and from 30,000 won to no-limitation for in-patient. 12. The highest utility rate of student medical insurance program was found in university 'F' with the rate of 791 for out-patient and 12 for admitted patient per 1,000 students.

• Journal of Korean Society of Occupational and Environmental Hygiene
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• v.17 no.3
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• pp.192-202
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• 2007

Objectives: The objectives of this research are to examine the missions, organization, and programs of the environmental, health and safety(EHS) offices of the major research universities in the U.S.A., particularly the case of Massachusetts Institute of Technology(MIT) EHS Office, and to suggest ways to address the EHS issues of the universities and research institutes in South Korea. Methods: The top 30 research universities in the U.S.A. were selected by the total amounts of research funds they annually received. The web sites of the 30 universities were searched to identify the names of the departments that address environment, health, and/or safety related issues, the missions of those departments, the major programs of those departments, and the number of staff in those departments. Also, a case study was conducted for the Environment Health and Safety Management System and the Environment, Health and Safety Office of the MIT, using literature and web searches and a meeting with the Director of the MIT Environment, Health and Safety Office. Results: All the top 30 research universities in the U.S.A. had designated departments that dealt with EHS issues. Most of them were by the name of or similar to environmental, health and safety. The mission statements of those departments were mostly about improving the safety and health of their community members, improving the environment, and complying to EHS regulations. Most of those departments had an environmental management program, industrial hygiene program, radiation protection program, safety program, and biosafety program as their major programs. The components of the environment, health and safety management system(EHS-MS) of the MIT were examined in detail. In contrast, not many universities in South Korea had designated departments that dealt specifically with EHS issues. Also, the number of fulltime staff for EHS was only 1-2 in most of the Korean universities and their work duties included only general safety, while neglecting other health/environment related issues. Conclusions: Well organized and functioning environmental, health and safety offices were present in all of the top 30 research universities in the U.S.A., whereas similar organizations of the universities in South Korea were virtually non-existent and/or had very limited EHS activities. Therefore, in order to reduce potential risks of accidents and health problems in the Korean universities and research institutions, well established and functioning EHS-MSs and EHS offices are warranted. The case of the EHS-MS and EHS Office in the MIT demonstrate a successful case to follow.

• Asia-Pacific Journal of Business Venturing and Entrepreneurship
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• v.19 no.2
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• pp.181-196
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• 2024

This study examines the impact of university graduate Startup rates on economic growth in the regions where universities are located, using panel data from 35 universities in 17 regions in Korea and 21 universities in 13 cities in China over a six-year period from 2016 to 2021. In Korea, a total of 35 universities were selected as part of the Ministry of Education's "University-initiated Startup" policy, including Startup-oriented universities, leading universities in Startup education innovation, Startup education bases, and excellent universities in Startup education, while in China, 21 universities were selected as part of the pilot bases established as part of the "Mass Entrepreneurship, Mass Innovation" policy. To analyze the economic impact of the universities on the regions where they are located, we aimed to conduct an empirical analysis of the economic impact using economic indicators of the economic growth rate of the regions where they are located. The results of the empirical analysis show that the Startup rate of university graduates in Korea and China both have a positive impact on the regional economic growth rate, but the Startup rate of local university graduates in Korea has a greater impact on the regional economy than in China. Based on the findings that the number of entrepreneurs produced by universities has a positive impact on the economic growth of their regions, this study draws implications for the role of universities and regions in revitalizing local economies and the establishment of systems to resolve the imbalance between metropolitan and non-metropolitan areas.

• Journal of the Economic Geographical Society of Korea
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• v.8 no.1
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• pp.71-89
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• 2005

In the era of knowledge-based society and glocalization the new role and mission of universities is of increasing concern to us. Studies of the successful universities suggest that there are many ways for the future development of universities, for example high qualification, specialization, and internationalization of universities etc. In this context we can also focus particularly on the regionalization of universities in terms of the university as a regional builder. This paper aims to identify the interactions between universities and regions and to explain their's contributions to the regional developments. The result of analysis shows that the university-region interaction is a win-win strategy both for university and for region in the rapid changing social-economic, administrative and educational environments, and more systematic and stepwise approaches are required to ensure a mutually beneficial collaboration.