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2015 개정 교육과정에 따른 『한국사』교과서의 독립운동사 구성 방식 검토
禹址旼(Woo, Jimin) 역사교육연구회 2020 역사교육 Vol.156 No.-
“Korean History” by the 2015 National Curriculum has organized the Independence Movement showing the following features. Firstly, it has divided the ‘Japanese colonial era’ into three, to comprehend the Japanese colonial policy and the Korean people’s nationwide movement in connection with international situations thereabout. Moreover, it identified the independence movement continuously from the 1910s to the post-liberation period and presented changes in the independence movement over time. It’s emphasis on social movement is greatly noticeable. We find it meaningful to observe the country Koreans were trying to establish. Accordingly, the activities of Koreans in the 1920s and 1930s, which had been covered as national movements in one, were re-classified into national activities and social movements. There were many inquiry activites on ‘Japanese colonial era’ which to evaluate the historical significance of various national activities and also to identify the importance of social movements as well. Through these activities, it seems that they wanted to understand the independence movement in various ways and promote critical thinking.
박지희 ( Jihee Park ),우지민 ( Jimin Woo ),조민지 ( Minji Cho ),김명주 ( Myuhng-joo Kim ) 한국정보처리학회 2020 한국정보처리학회 학술대회논문집 Vol.27 No.1
정보화시대로 넘어오면서 코딩 역시 중요한 교육으로 자리 잡고 있다. 초등학교는 물론 중, 고등학교도 교육적인 측면에서 프로그래밍을 중요시하고 있으며 C언어나 Java는 더이상 개발자만을 위한 언어로 인지되지 않는다. 하지만 코딩의 결과만 의존할 경우 정보보호를 하는 시큐어 코딩의 요소를 중요하게 여기지 않을 수 있다. 그 결과 DB는 물론 서버 에러를 비롯해 개인정보는 많은 위험에 노출될 수 있다. 기본적인 프로그래밍을 숙지한 개발자를 위해 더욱 안전한 코딩을 교육하고자 시큐어 C 코딩 앱을 기획하게 되었고, 정보보호를 코딩의 중요한 요소로 인지하기를 기대한다.
페지제어기를 이용한 지능형 Vehicle의 자율주행 시뮬레이션
정성택,우지민,김훈모 기계기술연구소 1999 성균관대학교 논문집 기계기술편 Vol.1 No.1
In this paper, we present a sensor based path planning method using fuzzy logic for obstacle avoidance of an intelligent vehicle in unknown environments. Generally, Robot navigation in unknown terrains is a very complex task difficult to control because of the great amount of imprecise and ambiguous sensor information that has to be considered. In this case, fuzzy logic can satisfactorily deal with such information in quite efficient manner. In this study, we propose two fuzzy logic controller which is composed of steering controller and velocity controller respectively. Our objective is to develop a fuzzy controller that can enable a mobile robot to navigate from a start point to a goal point without collisions, in the least possible travel time. The ability and effectiveness for the proposed algorithm will be demonstrated by computer simulation.