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== Reference ==
Vinod Srinivasan, Esan Mandal and Ergun Akleman: [[Solidifying Wireframes]]. In: [[Bridges 2005]]. Pages 203–210

== DOI ==

== Abstract ==
In this paper we present a method to convert a wireframe mesh into a 2-manifold mesh consisting of
cylindrical pipes in place of the edges and joints in place of the vertices in the original mesh. Our
method allows users to create unique artistic depictions of common objects and structures. The resulting
mesh is also more effective at conveying the overall 3D structure and any internal elements of a model
when compared to regular wireframe or boundary representations. The input wireframe mesh can be
any collection of linear edges; they do not have to form a manifold surface or even be connected to
each other. The result is always an orientable 2-manifold surface. Our algorithm replaces every edge in
the wireframe mesh with a cylindrical 3D pipe. The pipes are connected to each other using 3D joints
created at the vertices in the wireframe where the edges meet. Our method has been implemented as part
of a polygonal mesh modeling system and has been used to create artistic models of popular architectural
structures as well as to create conceptual sketches for virtual environments.

== Extended Abstract ==

== Bibtex ==

== Used References ==
[1] A KLEMAN , E., C HEN , J., AND S RINIVASAN , V. An interactive shape modeling system for robust
design of functional 3d shapes. In Proceedings of ACADIA 2001 (Oct. 2001), pp. 248–257.

[2] A KLEMAN , E., C HEN , J., AND S RINIVASAN , V. A prototype system for robust, interactive and user-
friendly modeling of orientable 2-manifold meshes. In Proceedings of Shape Modeling International
2002 (Banff, Canada, May 2002).

[3] A KLEMAN , E., S RINIVASAN , V., AND C HEN , J. Interactive rind modeling. In Proceedings of Shape
Modeling International 2003 (Seoul, Korea, May 2003).

[4] C ATMULL , E., AND C LARK , J. Recursively generated B-spline surfaces on arbitrary topological
meshes. Computer Aided Design 10 (1978), 350–355.

[5] C ATURANO , U., AND S ANSEVERINO DI M ARCELLINARA , C. Solid modelling by low-cost hardware
and software: the crystal palace’s node. In Proceedings of eCAADe Conference (Eindhoven (The
Netherlands), Nov. 1993).

[6] D OO , D., AND S ABIN , M. Behavior of recursive subdivision surfaces near extraordinary points.
Computer Aided Design 10 (1978), 356–360.

[7] M ANDAL , E. Wire and Column Modeling. Master’s thesis, Texas A&M University, 2004.

[8] M ANDAL , E., S RINIVASAN , V.,
and Applications, July 2003.
AND
A KLEMAN , E. Wire modeling. SIGGRAPH 2003, Sketches

[9] S RINIVASAN , V. Modeling High-Genus Surfaces. Ph.D. dissertation, Texas A&M University, 2004.

[10] S RINIVASAN , V., A KLEMAN , E., AND C HEN , J. Interactive construction of multi-segment curved
handles. Pacific Graphics 2002 (Oct. 2002).

[11] VAN K EMPEN , A., KOK , H., (May 1992), 7–13.
AND
WAGTER , H. Design modeling. Automation in Construction 1
̈
[12] Z ORIN , D., AND S CHR ODER, P. Subdivision for modeling and animation. ACM SIGGRAPH 2000
Course Notes, 2000.

== Links ==
=== Full Text ===
http://archive.bridgesmathart.org/2005/bridges2005-203.pdf

[[intern file]]

=== Sonstige Links ===
http://archive.bridgesmathart.org/2005/bridges2005-203.html

Solidifying Wireframes - Versionsgeschichte

Gbachelier: Die Seite wurde neu angelegt: „ == Reference == Vinod Srinivasan, Esan Mandal and Ergun Akleman: Solidifying Wireframes. In: Bridges 2005. Pages 203–210 == DOI == == Abstract =…“