Standard

On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea. / Bogdanov, A. V.; Degtyarev, A. B.; Gankevich, I. V.; Khramushin, V. N.

In: CEUR Workshop Proceedings, Vol. 2267, 01.01.2018, p. 493-498.

Research output: Contribution to journalConference articlepeer-review

Harvard

Bogdanov, AV, Degtyarev, AB, Gankevich, IV & Khramushin, VN 2018, 'On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea', CEUR Workshop Proceedings, vol. 2267, pp. 493-498.

APA

Bogdanov, A. V., Degtyarev, A. B., Gankevich, I. V., & Khramushin, V. N. (2018). On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea. CEUR Workshop Proceedings, 2267, 493-498.

Vancouver

Bogdanov AV, Degtyarev AB, Gankevich IV, Khramushin VN. On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea. CEUR Workshop Proceedings. 2018 Jan 1;2267:493-498.

Author

Bogdanov, A. V. ; Degtyarev, A. B. ; Gankevich, I. V. ; Khramushin, V. N. / On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea. In: CEUR Workshop Proceedings. 2018 ; Vol. 2267. pp. 493-498.

BibTeX

@article{480ac02308d4484991f819be4eaf1ca9,
title = "On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea",
abstract = "Implementation of applied numerical experiments either in design phase, or in development and creation of software suites demands unique synthesis of numerical structures that describe physical phenomena to closely meet requirements of efficient application of simulation operations in the context of continuous graphical visualisation of all spatial processes. Requirements for declarative digital specification of ship hull geometry, contour lines of which are defined by continuous but multilvalued functions, are formulated in the context of a particular engineering problem. Key numerical operations define the hull motions in three-dimensional space under the impact of intense sea waves, simulated in the framework of trochoidal theory of group structure of wind waves and swell. Hydrometeorological parameters of sea state and ship dynamics, which are regularly documented in ship bridge in accordance with the standard instructions to seafarers, are used as initial conditions for setup and subsequent validation of direct numerical experiments.",
keywords = "Computational experiment, Separation of computational processes, Software suite, Virtual testbed",
author = "Bogdanov, {A. V.} and Degtyarev, {A. B.} and Gankevich, {I. V.} and Khramushin, {V. N.}",
year = "2018",
month = jan,
day = "1",
language = "English",
volume = "2267",
pages = "493--498",
journal = "CEUR Workshop Proceedings",
issn = "1613-0073",
publisher = "RWTH Aahen University",
note = "8th International Conference {"}Distributed Computing and Grid-Technologies in Science and Education{"}, GRID 2018 ; Conference date: 10-09-2018 Through 14-09-2018",

}

RIS

TY - JOUR

T1 - On agreement of computational experiment in interactive simulation of the ship hydromechanics on a STORMY sea

AU - Bogdanov, A. V.

AU - Degtyarev, A. B.

AU - Gankevich, I. V.

AU - Khramushin, V. N.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - Implementation of applied numerical experiments either in design phase, or in development and creation of software suites demands unique synthesis of numerical structures that describe physical phenomena to closely meet requirements of efficient application of simulation operations in the context of continuous graphical visualisation of all spatial processes. Requirements for declarative digital specification of ship hull geometry, contour lines of which are defined by continuous but multilvalued functions, are formulated in the context of a particular engineering problem. Key numerical operations define the hull motions in three-dimensional space under the impact of intense sea waves, simulated in the framework of trochoidal theory of group structure of wind waves and swell. Hydrometeorological parameters of sea state and ship dynamics, which are regularly documented in ship bridge in accordance with the standard instructions to seafarers, are used as initial conditions for setup and subsequent validation of direct numerical experiments.

AB - Implementation of applied numerical experiments either in design phase, or in development and creation of software suites demands unique synthesis of numerical structures that describe physical phenomena to closely meet requirements of efficient application of simulation operations in the context of continuous graphical visualisation of all spatial processes. Requirements for declarative digital specification of ship hull geometry, contour lines of which are defined by continuous but multilvalued functions, are formulated in the context of a particular engineering problem. Key numerical operations define the hull motions in three-dimensional space under the impact of intense sea waves, simulated in the framework of trochoidal theory of group structure of wind waves and swell. Hydrometeorological parameters of sea state and ship dynamics, which are regularly documented in ship bridge in accordance with the standard instructions to seafarers, are used as initial conditions for setup and subsequent validation of direct numerical experiments.

KW - Computational experiment

KW - Separation of computational processes

KW - Software suite

KW - Virtual testbed

UR - http://www.scopus.com/inward/record.url?scp=85060079391&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85060079391

VL - 2267

SP - 493

EP - 498

JO - CEUR Workshop Proceedings

JF - CEUR Workshop Proceedings

SN - 1613-0073

T2 - 8th International Conference "Distributed Computing and Grid-Technologies in Science and Education", GRID 2018

Y2 - 10 September 2018 through 14 September 2018

ER -

ID: 37861105