A Study on Design Constraints of a Supercavitating Underwater Vehicle | Zendy

Seonhong Kim | Zendy; Nakwan Kim | Zendy

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A Study on Design Constraints of a Supercavitating Underwater Vehicle

Author(s) -

Seonhong Kim,

Nakwan Kim

Publication year - 2016

Publication title -

journal of the society of naval architects of korea

Language(s) - Spanish

Resource type - Journals

eISSN - 2287-7355

pISSN - 1225-1143

DOI - 10.3744/snak.2016.53.1.54

Subject(s) - supercavitation , trim , stability (learning theory) , constraint (computer aided design) , underwater , vehicle dynamics , control theory (sociology) , range (aeronautics) , engineering , computer science , simulation , aerospace engineering , structural engineering , cavitation , mechanical engineering , control (management) , mechanics , physics , geology , oceanography , machine learning , artificial intelligence

. (cavitation) . 1970 . (Ahn, et al., 2012; Kim & Lee, 2014; Kim, et al., 2013; Kim & Kim, 2014; 2015a; 2015b; 2015c; Lee, et al., 2013). . gradient-based (Choi, et al., 2005) shell (Ahn & Ruzzene, 2006) . Alyanak, et al. (2006) , (configuration) . Ahn, el al. (2010) (maneuvering) (configuration) . . . 2 3 . . 4 . 4.1 4.2 – 4.6 . 4.6 . 5 4 .†

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