Internet-based Distributed Collaborative Engineering Analysis
This paper proposes an engineering analysis environment that allows remote users to conduct three-dimensional finite element analysis collaboratively through the Internet. Java and Java 3D were chosen to develop the working prototype due to their advantages of platform-independence and network suppo...
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| Veröffentlicht in: | Concurrent engineering, research and applications research and applications, 2002-12, Vol.10 (4), p.341-348 |
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| container_issue | 4 |
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| container_title | Concurrent engineering, research and applications |
| container_volume | 10 |
| creator | Sun, Qiuli Gramoll, Kurt |
| description | This paper proposes an engineering analysis environment that allows remote users to
conduct three-dimensional finite element analysis collaboratively through the
Internet. Java and Java 3D were chosen to develop the working prototype due to their
advantages of platform-independence and network supporting. The environment allows
remote users to work collaboratively on the same analysis object simultaneously. It
reads the geometric data generated by the collaborative geometric modeling
environment. The user can interact directly with the geometric model to perform
operations, such as applying, editing, and deleting boundary conditions and forces.
The operations are propagated among the team members, which creates a distributed
shared environment. The commands are transmitted instead of the generated data, and
thus the network traffic associated with the collaboration is minimized. Different
from classical server/client models,# the environment adopts a strategy in which the
client-side application has full analysis capabilities while the server only manages
communication. The essential features for distributed collaboration are discussed.
The actual design consideration of the working prototype is presented to help
illustrate the complexity and development of the collaborative environment. The
environment is open to the public at www.vcity.ou.edu. |
| doi_str_mv | 10.1177/a030347 |
| format | Article |
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conduct three-dimensional finite element analysis collaboratively through the
Internet. Java and Java 3D were chosen to develop the working prototype due to their
advantages of platform-independence and network supporting. The environment allows
remote users to work collaboratively on the same analysis object simultaneously. It
reads the geometric data generated by the collaborative geometric modeling
environment. The user can interact directly with the geometric model to perform
operations, such as applying, editing, and deleting boundary conditions and forces.
The operations are propagated among the team members, which creates a distributed
shared environment. The commands are transmitted instead of the generated data, and
thus the network traffic associated with the collaboration is minimized. Different
from classical server/client models,# the environment adopts a strategy in which the
client-side application has full analysis capabilities while the server only manages
communication. The essential features for distributed collaboration are discussed.
The actual design consideration of the working prototype is presented to help
illustrate the complexity and development of the collaborative environment. The
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conduct three-dimensional finite element analysis collaboratively through the
Internet. Java and Java 3D were chosen to develop the working prototype due to their
advantages of platform-independence and network supporting. The environment allows
remote users to work collaboratively on the same analysis object simultaneously. It
reads the geometric data generated by the collaborative geometric modeling
environment. The user can interact directly with the geometric model to perform
operations, such as applying, editing, and deleting boundary conditions and forces.
The operations are propagated among the team members, which creates a distributed
shared environment. The commands are transmitted instead of the generated data, and
thus the network traffic associated with the collaboration is minimized. Different
from classical server/client models,# the environment adopts a strategy in which the
client-side application has full analysis capabilities while the server only manages
communication. The essential features for distributed collaboration are discussed.
The actual design consideration of the working prototype is presented to help
illustrate the complexity and development of the collaborative environment. The
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conduct three-dimensional finite element analysis collaboratively through the
Internet. Java and Java 3D were chosen to develop the working prototype due to their
advantages of platform-independence and network supporting. The environment allows
remote users to work collaboratively on the same analysis object simultaneously. It
reads the geometric data generated by the collaborative geometric modeling
environment. The user can interact directly with the geometric model to perform
operations, such as applying, editing, and deleting boundary conditions and forces.
The operations are propagated among the team members, which creates a distributed
shared environment. The commands are transmitted instead of the generated data, and
thus the network traffic associated with the collaboration is minimized. Different
from classical server/client models,# the environment adopts a strategy in which the
client-side application has full analysis capabilities while the server only manages
communication. The essential features for distributed collaboration are discussed.
The actual design consideration of the working prototype is presented to help
illustrate the complexity and development of the collaborative environment. The
environment is open to the public at www.vcity.ou.edu.</abstract><pub>SAGE Publications</pub><doi>10.1177/a030347</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 1063-293X |
| ispartof | Concurrent engineering, research and applications, 2002-12, Vol.10 (4), p.341-348 |
| issn | 1063-293X 1531-2003 |
| language | eng |
| recordid | cdi_crossref_primary_10_1177_a030347 |
| source | SAGE Complete A-Z List |
| title | Internet-based Distributed Collaborative Engineering Analysis |
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