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학습 오토마타를 이용한 화일 이동 (pp.210-215)
문원식(Won Sik Moon),홍영식(Young Sik Hong) 한국정보과학회 1993 정보과학회논문지 Vol.20 No.2
분산 처리 시스템에서의 일반적인 동적 화일 이동 알고리즘은 화일 이동을 위한 메시지 전송이 많고, 이동될 화일의 목적 프로세서를 결정하는 결정 함수가 복잡하므로 이에 기인한 오버헤드가 크다. 본 논문에서는 화일 이동 알고리즘을 위한 메시지 전송을 없애고, 학습 오토마타를 사용하여 간단한 결정 함수를 구한다. 그리고 학습 오토마타의 특성에 따라 동적으로 변화하는 시스템의 상태에 적절히 적응하여 화일 이동을 수행하는 알고리즘을 제시한다. Algorithms for migrating files in distributed systems need a lot of message transmissions. Complex objective functions to determine the destination processor to which files are migrated make a large computational overhead in the system. In this paper, a simple desion function based on the learning automata is suggested to reduce the number of message transmissions in the file migration. Also, we propose a file migration algorithm which is adaptive to the dynamic systme according to the characteristics of the learning automata.
해상풍력발전단지 간의 전력계통 연계에 관한 경제성 분석 연구
문원식(Won-Sik Moon),조아라(Ara Jo),김재철(Jae-Chul Kim) 대한전기학회 2014 전기학회논문지 P Vol.63 No.4
An offshore wind power plant (WPP) is very expensive and different from an onshore wind power system in many ways. There has been a continuous increase in the capacity of the offshore WPPs. Therefore it is essential to analyze the feasibility and reliability of the offshore wind power to optimize their redundancy. Besides, it is very important to study a planning for grid interconnection of adjacent offshore WPPs. This paper proposes a economic evaluation method to interconnect with adjacent offshore substations in offshore wind power grid. Also, we suggest the probabilistic reliability method to calculate a probabilistic power output of the wind turbine and a cost of the expected energy not supplied that is used as the reliability index of the power system.
전압변동과 부하량을 고려한 저압배전계통의 분산전원 설치용량 분석
문원식(Won-Sik Moon),조성민(Sung-Min Cho),이희태(Hee-Tae Lee),신희상(Hee-Sang Shin),한운기(Woon-Ki Han),추동욱(Dong-Wook Choo),김재철(Jae-Chul Kim) 대한전기학회 2010 전기학회논문지 P Vol.59 No.1
This paper describes a capacity of distributed generation which will be interconnected at low voltage distribution systems. In order to set the capacity of distributed generation, a voltage variation of distribution system is considered. Besides, the capacity of distributed generation is classified according to a capacity of pole transformer and loads. The system constructions in this paper are analyzed by using PSCAD/EMTDC. In the immediate future, it is expected to increase the installation of New and renewable energy systems which are generally interconnected to distribution power systems in the form of distributed generations like photovoltaic system, wind power and fuel cell. So the study of this kind would be needed to limit the capacity of distributed generation.