“Swirling-Sweepers: Constant Volume Modeling” by Angelidis, King, Wyvill and Cani

  • ©Alexis Angelidis, Scott King, Geoff Wyvill, and Marie-Paule Cani

  • ©Alexis Angelidis, Scott King, Geoff Wyvill, and Marie-Paule Cani

  • ©Alexis Angelidis, Scott King, Geoff Wyvill, and Marie-Paule Cani

  • ©Alexis Angelidis, Scott King, Geoff Wyvill, and Marie-Paule Cani

Conference:


Type(s):


Title:

    Swirling-Sweepers: Constant Volume Modeling

Session/Category Title:   Squash, Stretch, and Repeat

Presenter(s)/Author(s):


Abstract:


    Swirling-sweepers is a new method for modeling shapes while preserving volume. The artist describes a deformation by dragging a point along a path. The method is independent of the geometric representation of the shape. It preserves volume and avoids self-intersections, both local and global. It is capable of unlimited stretching and the deformation can be controlled to affect only a part of the model.

References:


    Angelidis, A., Cani, M.-P., Wyvill, G., and King, S. 2004. Swirling-sweepers: Constant volume modeling. Tech. rep., University of Otago.
    Angelidis, A., Wyvill, G., and Cani, M.-P. 2004. Sweepers: Swept user-defined tools for modeling by deformation. In Shape Modeling International.
    Decaudin, P. 1996. Geometric deformation by merging a 3d object with a simple shape. In Graphics Interface, 55–60.

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