• Journal of the Korea Safety Management & Science
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• v.12 no.4
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• pp.229-238
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• 2010

With the foundation of the WTO in 1995, the era of boundless and unlimited competition between many of the countries around the world has begun. In order to elevate the competitiveness in the international market, we have incorporated the QMS and the EMS system, establish by the International Standardization Organization, and the process has been operated under the authorization. However, many Korea companies' separate enforcement of the QMS and the EMS system is causing the dissipation of the labor force and the invested capital. As we can see through studying the contents on this paper, the number of documents has been reduced down to 54% (From 139 of them to 64 of them), and the conflict and the chaos that could have happened between the documents has been prevented. Its' outcome is attributed to the foundation and the embarkation on the Integrated Management Systems of the KS, QMS, and EMS. Not only that, it has also reduced the waste elements up to greater than 40%.

• Journal of Environmental Impact Assessment
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• v.15 no.3
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• pp.165-178
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• 2006

Environmental Impact Assessment (EIA) and Environmental Management Systems (EMS) are perceived by many to be separate environmental tools. EIA serves as a systematic and predictive tool for assessing the potentially significant impacts of developments on the environment. An EMS, on the other hand, is used to consider the key impacts of operational businesses on the environment. The main difference to note is that during the EIA process impacts on developments are predicted. A proposed development has yet to be built and therefore an element of uncertainty is associated with these assessments. With an EMS, the business or organization's processes are already in operation. Even though there is also an element of prediction involved, it is a comparatively easier task to investigate what the environmental impacts of these processes are. However, in contrast with the orientation of EIA to further development actions, EMS involves the review, assessment and incremental improvement of an existing organization's environmental effects. EMS can thus be regarded as a continuation of EIA principles into the operational stage of a policy, plan, program and project. EIA may be carried out without fully supporting necessary informations to EMS.

• Proceedings of the KIPE Conference
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• 2012.11a
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• pp.33-34
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• 2012

As the distributed power system with PV and ESS is highlighted to be one of the most prominent structure to replace the traditional electric power system, power flow scheduling is expected to bring better system efficiency. Optimal energy management system (EMS) where the power from PV and the grid is managed in time-domain using ESS needs an optimization process. In this paper, main optimization method is implemented using dynamic programming (DP). To overcome the drawback of DP in which ideal future information is required, prediction stage precedes every EMS execution. A simple auto-regressive moving-average (ARMA) forecasting followed by a PI-controller updates the prediction data. Assessment of the on-line optimal EMS scheme has been evaluated on several cases.

• Proceedings of the KIEE Conference
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• 1996.07b
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• pp.893-895
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• 1996

This paper presents the concept of the structure and major functions for the new EMS in KEPCO. This system will be in operation in the beginning of the 21 century in compliance with power system expansion and system architecture consists of distributed and open computer technology. The transmission operation control center as a back-up control center of NCC will control under 345kV transmission system and regional control centers.

• Proceedings of the Korea Information Processing Society Conference
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• 2015.10a
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• pp.1131-1133
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• 2015

EMS(Energy Management System)는 우리나라 전체 전력 계통을 실시간으로 감시, 제어하고 계통 주파수를 자동으로 조정하여 성능 최적화를 유도하는 시스템으로 전력 계통의 두뇌와 같은 역할을 한다. 본 연구에서는 차세대 EMS(Next Generation Energy Management System: NG-EMS)에서 Enable과 Standby 서버 간 데이터베이스 동기화 기능 개선 개발 기술을 소개한다. EMS는 원방제어감시에 사용되는 SCADA(Supervisory Control And Data Acquisition) 데이터를 포함하여 자동발전, 경제급전 등의 전력 계통을 위해 가공된 데이터를 메모리 데이터베이스에 저장한다. 본 연구에서는 EMS의 메모리 데이터베이스에 저장되어 있는 데이터를 시스템 운영자가 선별을 하여 동기화를 수행할 수 있도록 한다. 또한 동기화 되고 있는 현황을 가시적으로 보임으로써 Enable 서버의 장애 발생 시 Standby 서버로의 대체가 유연하고 안정적이며, 신뢰성을 줄 수 있다.

• Proceedings of the KIEE Conference
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• 2009.07a
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• pp.79_80
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• 2009

전력계통 운영을 위하여 사용되고 있는 에너지관리시스템(EMS)의 다양한 계통해석 프로그램들이 온-오프의 환경에서 급전원의 계통운영 의사결정을 지원하기 위하여 활용되고 있다. 그러나 EMS 환경에서 계통해석 프로그램 운영에 대한 성패는 프로그램 자체의 효율성과 신뢰성도 중요하지만, 프로그램 운영의 기반이 되는 시스템 플랫폼의 성능으로부터도 큰 영향을 받는다. 따라서 EMS 계통해석 환경의 구축에서 시스템 플랫폼 성능과 영향을 고려하여야 한다. 본 논문에서는 대규모 전력회사들이 운영하고 있는 EMS 환경에서의 전력계통해석 응용 프로그램들을 효율적 관리하고 운영하기 위하여 이용되는 시스템 플랫폼 기반의 Network Application Manager (NAM)에 대한 프로세스 아키텍쳐의 요구사항과 구축방안에 대하여 현재 개발중인 한국형 EMS(K-EMS) 개발사례를 기반으로 소개하였다.

• Proceedings of the Korean Society for Technology of Plasticity Conference
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• 2004.10a
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• pp.148-151
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• 2004

Different kinds of feedstock of semisolid a356 aluminum alloy manufactured by EMS stirring only, inoculation of Al-5Ti-B only and combination of inoculation and EMS stirring were investigated. It is found that the grain size of these feedstock are $350{\mu}m$ for EMS casting only, $320{\mu}m$ for inoculation by Al-5Ti-B, and $100{\mu}m$ for the combination of EMS stirring and inoculation of Al-5Ti-B master alloys. The microstructure of the sample obtain by combination of inoculation and EMS system show the best homogeneousness and finest grains.

• Journal of the Korea Safety Management & Science
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• v.4 no.3
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• pp.157-166
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• 2002

With the introduction of the Internet in the 21st century, the manufacturing-oriented industry, so called EMS(Electronic Manufacturing Service) specialized in manufacturing only, is rapidly expanding. From the beginning of the year 2000, the EMS industry in advanced countries around the world, whereas a strong Motivation System in which a manufacturing related staff plays a main role, has began providing the source of competitiveness. And this industry is regarded as a core of management linking productivity directly to management performance. Thus, all the manufacturing sectors including not only the electronic industry but also mechanical industry in the future are observed to be divided into two industries; a Maker strategy industry focused on marketing and development, and a EMS industry specialized in manufacturing. Therefore, we need to evaluate whether the industries should continue to support the Manufacturers Strategy or attempt to change into the EMS industry However, with no approved evaluation standard on hand as to an actual EMS industry, in this thesis, we develop the EM(EMS-Maker) Chart in order to analyze both the Manufacturer Strategy and the EMS industries.

• Journal of Digital Convergence
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• v.9 no.6
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• pp.27-37
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• 2011

Presented in this study is a top-down functional modeling procedure and the desired functionalities of energy management system (EMS). For the purpose of top-down modeling for EMS, energy management system is categorized into 7 subsystems based on common functionalities and energy management life cycle. After that, benchmarking analysis of commercially major EMS products is conducted. As a result of this analysis, desired functionalities of each subsystem of EMS are suggested in this study. This study is served as a useful guidance about essential functional requirements of energy management system to the practitioners involved in the development or introduction of EMS.

• Journal of Electrical Engineering and Technology
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• v.6 no.1
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• pp.42-47
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• 2011

Automatic generation control (AGC) is an important function for load frequency control, which is being implemented in Energy Management System (EMS). A key feature of AGC is to back up governors to enhance the performance of frequency control. The governor regulates system frequency in several to ten seconds, while the droop control concept results in steady-state control error. AGC is a supplementary tool for compensation of the steady-state error caused by the droop setting of the governors. As the AGC target is delivered to each generator as an open loop control target, the generator output is not guaranteed to follow the AGC target. In this paper, we introduce generating unit controller (GUC) control block, which has the purpose of enabling the generator output to track the AGC target while maintaining the governor performance. We also address the tuning methods of GUC for better performance of AGC in the Korea Energy Management System (K-EMS).