• Bulletin of the Society of Naval Architects of Korea
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• v.30 no.4
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• pp.14-17
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• 1993

본 연구는 CSDP-초기설계 시스템 개발'3' 세부과제로 수행되었으며 선박의 기본 성능 및 사양을 결정하는데 필요한 제반 기본 계산을 수행하고 설계자의 의사결정을 지원하는 대화식 초기 설계 전산 시스템의 개발에 그 목적이 있으며, 크게 개념설계 분야와 선형 설계분야로 나누어 개발 되어왔다.(Fig. 4.1 참조). 이번 4차년도에는, 프로그램을 보다 효율적으로 사용할 수 잇도록 하기 위하여 개년설계 시스템을 구성하는 단위 모듈들을 단독으로 사용 가능하도록 독립성을 유지 함과 동시에, 시스템 차원의 상위 레벨에서 각각의 모듈들을 통합 제어하는 수퍼어플리케이션 개념을 이용한 유연화된 대화형 개념설계 프로그램(BASCON-3)을 개발하였다. 그리고 선박의 주기관 선정과 관련한 경험적 지식을 도출하여 지식베이스를 구성하고, 주기관 데이터베이스 및 저항.추진성능 추정 모듈들과의 통합을 통한 시험형의 주기관 선정 지원 시스템(ME-ASSIST )을 개발하였다. 또한 그래픽 사용자 인터페이스(GUI)를 채택한 확장형 선형 정의 및 변환 프 로그램(MBASTRANS)을 개발하였다. 형상 모델러인 ACIS를 도입하여, 조선 분야에의 활용 가 능성을 연구하였고, 조선소에 GUI개발 기술과 시스템 통합 기술을 이전하였다.

• Korean Journal of Construction Engineering and Management
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• v.22 no.4
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• pp.29-40
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• 2021

Recently, interest in Building Information Modeling (BIM) has increased globally, and 3D modeling is a start for the application of BIM at construction sites. However, while many studies have been conducted on the efficiency of 3D modeling focused on civil facilities, there is a lack of research on the earthwork BIM. In particular, since 3D slope often has complex shapes depending on the ground models, the efficiency method for 3D slope are needed. This study analyzed the interfaces and procedures of other software to find out what functions users need. Then the functions to enter intervals between 3D faces, select multiple ground models, and improve the interface are reflected on the developed system and is able to efficiently perform modeling with only five steps, and reduce the number of clicks and inputs. As a result of conducting the test to verify the efficiency, using the developed system made skilled users complete modeling at least 1.8 times faster and unskilled people at least 2.4 times faster than using other software. This is expected to perform 3D slope modeling more efficiently, as well as to contribute to the activation of future BIM adoption for housing construction projects.

• Journal of KIISE:Computing Practices and Letters
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• v.12 no.6
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• pp.358-366
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• 2006

This paper describes a novel navigation algorithm using a locomotion interface with two 6-DOF programmable foot platforms. When a human walks on the locomotion interface (LI), the walking motions of the human are recognized by several sensors. Then, the sensed information is used by the LI for generation of infinite surfaces for continuous walking and the virtual environments for scene update according to motions of the human walking. The suggested novel navigation system can induce user's real walking and generate realistic visual feedback during navigation. A novel navigation algorithm is suggested to allow natural navigation in virtual environments by utilizing conditions of normal gait analysis. For realistic visual feedback, the virtual environment is designed with three components; 3D object modeler for buildings and terrains, scene manager and communication manager component. From experiments, the subjects were satisfied with the reality of the suggested navigation algorithm using the locomotion interface. Therefore, the suggested navigation system can allow a user to explore into various virtual terrains with real walking and realistic visual feedback.