Nonlinear Analysis of Underwater Towed Cable Using Robust Nodal Position Finite Element Method | Zendy

Euntaek Lee | Zendy; Gwangsoo Go | Zendy; Hyung Taek Ahn | Zendy; SeongIl Kim | Zendy; Seung Yong Chun | Zendy; Jung Suk Kim | Zendy; Byeong Hee Lee | Zendy

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Nonlinear Analysis of Underwater Towed Cable Using Robust Nodal Position Finite Element Method

Author(s) -

Euntaek Lee,

Gwangsoo Go,

Hyung Taek Ahn,

SeongIl Kim,

Seung Yong Chun,

Jung Suk Kim,

Byeong Hee Lee

Publication year - 2016

Publication title -

journal of the society of naval architects of korea

Language(s) - Uncategorized

Resource type - Journals

eISSN - 2287-7355

pISSN - 1225-1143

DOI - 10.3744/snak.2016.53.5.388

Subject(s) - nonlinear system , finite element method , rigid body , underwater , robustness (evolution) , displacement (psychology) , newmark beta method , position (finance) , engineering , structural engineering , control theory (sociology) , computer science , physics , geology , classical mechanics , artificial intelligence , psychology , biochemistry , oceanography , chemistry , control (management) , quantum mechanics , psychotherapist , gene , finance , economics

() (mooring) , (ROV: Remotely Operated underwater-Vehicle) (Kim, et al., 2009; Lee & Ahn, 2015). , (Kim, et al., 2009; Lee & Ahn, 2015; Shin, 1990). . . (Wriggers, 2008). , (large deformation)

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