• 대한안전경영과학회지
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• 제6권1호
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• pp.11-23
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• 2004

The modem industrial society is developing while growing more diverse and gigantic. Accordingly, occupational injuries or accidents can be caused in various situations, not just in the limited range of workplaces but also in the surroundings, and interest has increased in the prevention of occupational accidents with respect to occupational health and safety, and environment. Thus, this thesis will consider 4MlE (Man, Machine, Method, Material, Environment) as the fundamental causes of accidents and introduce a model of system in which the output of the process control system is replaced by accidents with its input by 4M1E. Furthermore, it will demonstrate how occupational hazardousness can be measured, whereby it can also be rated, by examining the relationship between 4M1E and types of accident in terms of the categories of severity, frequency, and detectability, based on the application of the model to the framework of FMEA.

• 대한안전경영과학회지
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• 제6권1호
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• pp.25-35
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• 2004

We achieved a Quantitative economic growth through rapid developed in 1970' and 1980'. It was confronted after IMF crisis that we needed to improve the past economic policy and the industrial structure. In line of that, the problem of the industrial structure like huge accidents of 1990' converted the recognition of safety. And to improve the conversion, the research of a safety management was needed. In this paper, we thought 4M1E(Man, Machine, Method, Material, Environment) as the cause of accident using the principal of process, assuming that output is accident. Applying 4M1E to the structure of QFD(Quality Function Deployment), we propose the safety function deployment, which has the flow line as followed; demand safety, safety characteristic, direct cause, 4M1E and safety management.

• 산업경영시스템학회지
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• 제39권1호
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• pp.140-152
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• 2016

It is very important for the competitiveness and sustainable management of enterprises that the rapid changes in the managerial environments quickly and accurately are responded. For example, the large-scale investment accompanied by bad alternatives in accordance with misunderstanding of the managerial environments yields the huge cost and effort to modify and improve. In firm management, the quality of products and the productivity are influenced by changes of the endogenous factors yielded in manufacturing process and the exogenous factors as market, etc. These changes include not only changes in 4M (man, machine, material, method) but also those in the market, competitors, and technologies in the process of commodification, i.e., first, such disturbances make dispersion of the process big and odd. By Shewhart chart it can be checked that the process monitored is control-in or out. Business administration executes activities for input stabilization by monitoring changes in 4Ms, comparing with the standards, and taking measures for any abnormality. Second, TRM (technology road map) is to prospect product deployment and technological trend by predicting technologies in the competitive environment as the market, and to suggest the future directions of business. So, TRM must be modified and improved according to DR (design review) stages and changes in mass-production like input material change. Therefore, a role of TRM in input stabilization for reducing cost and man-hour is important. This study purposed to suggest that the environment changes are classified into endogenous factors and exogenous factors in production process, and then, quality and productivity should be stabilized efficiently through connection between TRM and input stabilization, and to prove that it is more effective for the display industry to connect TRM with input stabilization rather than to use TRM separately.

• 한국산학기술학회논문지
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• 제21권8호
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• pp.334-341
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• 2020

훈련함 탐색레이더 최대 탐지거리 측정 운용시험평가 수행 중 탐색레이더 표적의 속도 및 침로 불안정 현상이 발생하여 표적에 대한 속도가 불안정하여 ◯◯knots로 접근하는 함정의 속도 편차가 ± 10knots 이상으로 정확한 표적 정보 산출이 불가하고 정보 불일치로 무장 교전 시 명중률 저하 및 표적관리 정확도 저하를 해결하기 위하여 속도 불안정 현상 개선에 대한 연구를 수행하였다. 이를 위해 4M1E에 근거한 Fishbone Diagram을 이용하여 9가지의 원인을 식별하였으며 가장 큰 원인으로 탐색레이더의 표적 처리 소프트웨어의 표적 처리 알고리즘으로 분석되었다. 본 연구에서는 기존 속도 산출 알고리즘을 검토하였으며, 표적 속도 불안정 현상의 원인이 되는 속도 안정화 필터 알고리즘과 안테나 회전수와의 영향성 검토를 수행하여 안테나 회전수 변경시 달라지는 𝜶, 𝞫값을 적용하지 못하는 문제점을 발견하여 이를 개선한 속도 안정화 필터 알고리즘을 표적 추적 관리 소프트웨어에 적용하였다. 본 개선사항에 대한 실선 시험을 통해 안테나 회전수 변경시에도 탐색레이더 표적 속도 정보가 일정하게 유지되는 개선 효과를 확인하였다.