Conference - Nam-Kug Ku, Ara Jo, Sol Ha, Myung-Il Roh, Kyu-Yeul Lee, "Automatic Generation of Equations of Motion for Multibody System in Discrete Event Simulation Framework", Proceedings of INSODE 2011, Istanbul, Turkey, pp. 55-64, 2011.09.02-04

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첨부 '1'	INSODE2011(201109).pdf,

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Abstract	In this paper, the development of a simulation program that can automatically generate equations of motion for mutibody systems in the discrete event simulation framework is presented. The need to analyze the dynamic response of mechanical systems that are under event triggered conditions is increasing. General mechanical systems can be defined as multibody systems that are collections of interconnected rigid bodies, consistent with various types of joints that limit the relative motion of pairs of bodies. For complex multibody systems, a systematic approach is required to efficiently set up the mathematical models. Therefore, a dynamics kernel was developed to automatically generate the equations of motion for multibody systems based on multibody dynamics. The developed dynamics kernel also provides the numerical solver for the dynamic analysis of multibody systems. The general multibody dynamics kernel cannot deal with discontinuous state variables, event triggered conditions, and state triggered conditions, though. To enable it to deal with multibody systems in discontinuous environments, the multibody dynamics kernel was integrated into a discrete event simulation framework, which was developed based on the discrete event system specification (DEVS) formalism. DEVS formalism is a modular and hierarchical formalism for modeling and analyzing systems under event triggered conditions, which are described by discontinuous state variables. To verify the developed program, it was applied to an block-lifting and transport simulation, and dynamic analysis of the system is carried out.
Publication Date	2011-09-02

Abstract

In this paper, the development of a simulation program that can automatically generate equations of motion for mutibody systems in the discrete event simulation framework is presented. The need to analyze the dynamic response of mechanical systems that are under event triggered conditions is increasing. General mechanical systems can be defined as multibody systems that are collections of interconnected rigid bodies, consistent with various types of joints that limit the relative motion of pairs of bodies. For complex multibody systems, a systematic approach is required to efficiently set up the mathematical models. Therefore, a dynamics kernel was developed to automatically generate the equations of motion for multibody systems based on multibody dynamics. The developed dynamics kernel also provides the numerical solver for the dynamic analysis of multibody systems. The general multibody dynamics kernel cannot deal with discontinuous state variables, event triggered conditions, and state triggered conditions, though. To enable it to deal with multibody systems in discontinuous environments, the multibody dynamics kernel was integrated into a discrete event simulation framework, which was developed based on the discrete event system specification (DEVS) formalism. DEVS formalism is a modular and hierarchical formalism for modeling and analyzing systems under event triggered conditions, which are described by discontinuous state variables. To verify the developed program, it was applied to an block-lifting and transport simulation, and dynamic analysis of the system is carried out.

Publication Date

2011-09-02

Nam-Kug Ku, Ara Jo, Sol Ha, Myung-Il Roh, Kyu-Yeul Lee, "Automatic Generation of Equations of Motion for Multibody System in Discrete Event Simulation Framework", Proceedings of First World Conference on INSODE(Innovation and Software Development) 2011, Istanbul, Turkey, pp. 55-64, 2011.09.02-04

List of Articles
번호	분류	제목	Publication Date
506	International Conference	Jisang Ha, Myung-Il Roh, Min-Chul Kong, Mijin Kim, Jeoungyoun Kim, Nam-Kug Ku, "An Automated Method for Pipe Routing in Ship Unit Modules", Proceedings of IMDC 2024, Amsterdam, Netherland, 2024.06.02-06	2024-06-02
505	International Conference	Min-Chul Kong, Myung-Il Roh, In-Chang Yeo, In-Su Han, Dongki Min, Dongguen Jeong, "Methods for Graph Conversion and Pattern Recognition for P&IDs", Proceedings of IMDC 2024, Amsterdam, Netherland, 2024.06.02-06	2024-06-02
504	Domestic Conference	전도현, 노명일, 이혜원, "데이터 불확실성 기반 충돌 위험도 평가 및 강화 학습 기반 충돌 회피", 2024년도 스마트전기선박연구회 동계학술발표회, 부산, 2024.02.15-16	2024-02-16
503	Domestic Conference	박동규, 노명일, 하지상, "추진 체계 선정을 포함한 무인수상정 초기 제원 최적화 방법", 2024년도 한국CDE학회 동계학술발표회, 평창, p. 241, 2024.01.29-02.01	2024-01-31
502	Domestic Conference	공민철, 노명일, 하지상, 한인수, 김미진, 김정연, "선박 내 배관의 자동 배치를 위한 P&ID의 그래프 변환 방법", 2024년도 한국CDE학회 동계학술발표회, 평창, p. 129, 2024.01.29-02.01	2024-01-30
501	Domestic Conference	여인창, 노명일, 공민철, 유동훈, 진은석, "LIDAR를 이용한 선박의 위치 예측 알고리즘", 2024년도 한국CDE학회 동계학술발표회, 평창, p. 99, 2024.01.29-02.01	2024-01-30
500	Domestic Conference	한인수, 노명일, 공민철, 이정렬, 박서윤, "의미 유사도 기반의 선박 규정 검색 알고리즘", 2024년도 한국CDE학회 동계학술발표회, 평창, p.126, 2024.01.29-02.01	2024-01-30
499	Domestic Conference	김진혁, 노명일 ,여인창, "MLP 기반 상선의 선형 변환 방법", 2024년도 한국CDE학회 동계학술발표회, 평창, p.28, 2024.01.29-02.01	2024-01-30
498	Domestic Conference	김하연, 노명일, 하지상, "해상 장애물 추적을 위한 혼합 추적 방법", 2024년도 한국CDE학회 동계학술발표회, 평창, p. 94, 2024.01.29-02.01	2024-01-30
497	Domestic Conference	하지상, 노명일, 공민철, 한인수, 김미진, 김정연, "전문가 지식을 고려한 선박 유닛 모듈의 배관 배치 방법", 2024년도 한국CDE학회 동계학술발표회, 평창, pp. 124, 2024.01.29-02.01	2024-01-30

번호

분류

제목

Publication Date

506

International Conference

Jisang Ha, Myung-Il Roh, Min-Chul Kong, Mijin Kim, Jeoungyoun Kim, Nam-Kug Ku, "An Automated Method for Pipe Routing in Ship Unit Modules", Proceedings of IMDC 2024, Amsterdam, Netherland, 2024.06.02-06

2024-06-02

505

International Conference

Min-Chul Kong, Myung-Il Roh, In-Chang Yeo, In-Su Han, Dongki Min, Dongguen Jeong, "Methods for Graph Conversion and Pattern Recognition for P&IDs", Proceedings of IMDC 2024, Amsterdam, Netherland, 2024.06.02-06

2024-06-02