Abstract
Virtual digital mock-up (v-DMU) refers to all of the activities in the design, analysis, and visualization of the product in a 3D virtual environment that lead to a lower cost and a higher quality. In the early days, designers exchanged CAD files directly in collaborations. Recently, DMU systems have been used for relatively effective designs that generally support distributed and collaborative design capability by sharing the design data via the Internet. However, a range of problems can arise in such a case. In the case of large-scale products such as aircrafts or ships, the data size can be on a scale so large that it requires large amount of space on the workstation and requires considerable time for exchanges. Moreover, security problems often occur in the process of data exchanges. For a company and a nation, this can be crucial. The immersive visualization of product design data is becoming more important in collaborative design. As a solution to these issues, this paper proposes a new approach using the technology of the remote visualization of CAD data. This involves the streaming of rendered graphics using COVISE and SAGE. This paper also introduces the implementation of v-DMU based on e-Science by remote visualization.
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References
He F, Han S (2006) A method and tool for human-human interaction and instant collaboration in CSCW-based CAD. Computers in Industry. 57(8-9):740-751
Li WD (2005) A Web-based service for distributed process planning optimization. Computers in Industry. 56(3):272-288
Fuh JYH, Li WD (2004) Advances in collaborative CAD: the-state-of-the art. Computer-Aided Design. 37(5):571-581
Gueziec A, Taubin G, Horn B et al (1999) A framework for streaming geometry in VRML. IEEE Computer Graphics and Applications. 19(2):68-78
Li WD, Lu WF, Fuh JYH et al (2005) Collaborative computer-aided design–research and development status. Computer-Aided Design. 37(9):931-940
COVISE. http://www.hlrs.de/organization/vis/covise. Accessed 12 May 2008
Renambot L, Jeong B, Jagodic R et al (2006) Collaborative Visualization using High-Resolution Tiled Displays. ACM CHI Workshop on Inf Visualization Interact
Humphreys G, Buck I, Eldridge M et al (2000) Distributed rendering for scalable displays. IEEE Supercomputing 2000
Humphreys G, Houston M, Ng Y et al (2002) Chromium: A stream-processing framework for interactive rendering on clusters. Proc of SIGGRAPH 2002.
Germans D, Spoelder HJW, Renambot L et al (2001) VIRPI: A high-level toolkit for interactive scientific visualization in virtual reality. Proc IPT/Eurographics VE Workshop.
[11] VISENSO. http://www.visenso.de. Accessed 06 September 2008
[12] JT Open. http://www.jtopen.com. Accessed 23 August 2008
[13] OpenSceneGraph. http://www.openscenegraph.org. Accessed 02 June 2008
[14] KREONET. http://www.kreonet.re.kr. Accessed 07 July 2008
[15] GLORIAD. http://www.gloriad.org. Accessed 15 June 2008
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Shin, S. et al. (2010). Development of v-DMU Based on e-Science Using COVISE and SAGE. In: Byeon, OH., Kwon, J., Dunning, T., Cho, K., Savoy-Navarro, A. (eds) Future Application and Middleware Technology on e-Science. Springer, Boston, MA. https://doi.org/10.1007/978-1-4419-1719-5_3
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DOI: https://doi.org/10.1007/978-1-4419-1719-5_3
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