DEVELOPMENT of A TOOL for INTERACTIVE DETAILING of AREAS of OBJECTS for the STRENGTH MODELLING SYSTEM

Standard

DEVELOPMENT of A TOOL for INTERACTIVE DETAILING of AREAS of OBJECTS for the STRENGTH MODELLING SYSTEM. / Budlov, Egor ; Iakushkin, Oleg ; Sedova, Olga ; Gogotov, Alexander.

в: CEUR Workshop Proceedings, Том 3041, 2021, стр. 101-105.

Результаты исследований: Научные публикации в периодических изданиях › статья в журнале по материалам конференции › Рецензирование

BibTeX

@article{57c950b3cf994970b8bbba858cf6790b,

title = "DEVELOPMENT of A TOOL for INTERACTIVE DETAILING of AREAS of OBJECTS for the STRENGTH MODELLING SYSTEM",

abstract = "The development of technological progress makes increased demands on the strength properties of structural elements of buildings and structures, machines and mechanisms, and a decrease in their material consumption. This leads to the need for effective use of existing and creation of new methods of solid mechanics and the training of new highly qualified specialists. Additionally, having control over the objects' sizes will allow potential users (designers, engineers etc.) to consider the desired properties in the optimization problem. Otherwise, it would be both quite difficult and inefficient to utilize. This article describes a system for CAD modelling. Its implementation is based on open-source software, such as Python programming language, Jupyterlab and FEniCS library. The system also supports topological optimization and allows its user to integrate the desired numerical methods, which is currently not supported in the existing solutions. The execution time of solving the example problem was measured and presented together with the result. Special attention was paid to the comparison of the described solution with the currently existing ones.",

keywords = "CAD, Cloud computing, FEM, Jupyterlab, Modelling",

author = "Egor Budlov and Oleg Iakushkin and Olga Sedova and Alexander Gogotov",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 for this paper by its authors. Use permitted under Creative Commons License Attribution 4.0 International (CC BY 4.0).; 9th International Conference {"}Distributed Computing and Grid Technologies in Science and Education{"}, GRID 2021 ; Conference date: 05-07-2021 Through 09-07-2021",

year = "2021",

language = "English",

volume = "3041",

pages = "101--105",

journal = "CEUR Workshop Proceedings",

issn = "1613-0073",

publisher = "RWTH Aahen University",

url = "https://indico.jinr.ru/event/1086/overview",

}

RIS

TY - JOUR

T1 - DEVELOPMENT of A TOOL for INTERACTIVE DETAILING of AREAS of OBJECTS for the STRENGTH MODELLING SYSTEM

AU - Budlov, Egor

AU - Iakushkin, Oleg

AU - Sedova, Olga

AU - Gogotov, Alexander

N1 - Conference code: 9

PY - 2021

Y1 - 2021

N2 - The development of technological progress makes increased demands on the strength properties of structural elements of buildings and structures, machines and mechanisms, and a decrease in their material consumption. This leads to the need for effective use of existing and creation of new methods of solid mechanics and the training of new highly qualified specialists. Additionally, having control over the objects' sizes will allow potential users (designers, engineers etc.) to consider the desired properties in the optimization problem. Otherwise, it would be both quite difficult and inefficient to utilize. This article describes a system for CAD modelling. Its implementation is based on open-source software, such as Python programming language, Jupyterlab and FEniCS library. The system also supports topological optimization and allows its user to integrate the desired numerical methods, which is currently not supported in the existing solutions. The execution time of solving the example problem was measured and presented together with the result. Special attention was paid to the comparison of the described solution with the currently existing ones.

AB - The development of technological progress makes increased demands on the strength properties of structural elements of buildings and structures, machines and mechanisms, and a decrease in their material consumption. This leads to the need for effective use of existing and creation of new methods of solid mechanics and the training of new highly qualified specialists. Additionally, having control over the objects' sizes will allow potential users (designers, engineers etc.) to consider the desired properties in the optimization problem. Otherwise, it would be both quite difficult and inefficient to utilize. This article describes a system for CAD modelling. Its implementation is based on open-source software, such as Python programming language, Jupyterlab and FEniCS library. The system also supports topological optimization and allows its user to integrate the desired numerical methods, which is currently not supported in the existing solutions. The execution time of solving the example problem was measured and presented together with the result. Special attention was paid to the comparison of the described solution with the currently existing ones.

KW - CAD

KW - Cloud computing

KW - FEM

KW - Jupyterlab

KW - Modelling

UR - http://www.scopus.com/inward/record.url?scp=85121606388&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85121606388

VL - 3041

SP - 101

EP - 105

JO - CEUR Workshop Proceedings

JF - CEUR Workshop Proceedings

SN - 1613-0073

T2 - 9th International Conference "Distributed Computing and Grid Technologies in Science and Education", GRID 2021

Y2 - 5 July 2021 through 9 July 2021

ER -

ID: 91385780