A new solver for a subclass of D.S.I. problems applications to interactive parameterizatio

Bruno Levy. ( 2001 )
in: 21st gOcad Meeting, ASGA

Abstract

The current implementation of the D.S.I. solver is tailored for a maximum genericity, enabling both geometry and properties-related problems to be treated. It is possible to express the problem of surface parameterization in a way that does not require this generality, i.e. without requiring dynamic constraints. We study here the case where only fuzzy constraints are allowed, and we show how the conjugate gradient method can be used as an efficient solver for minimizing the D.S.I. criterion. Applications to interactive gridding with non-deformation constraints for distances and angles are then presented.

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    BibTeX Reference

    @inproceedings{LévyRM2001,
     abstract = { The current implementation of the D.S.I. solver is tailored for a maximum genericity, enabling both geometry and properties-related problems to be treated. It is possible to express the problem of surface parameterization in a way that does not require this generality, i.e. without requiring dynamic constraints. We study here the case where only fuzzy constraints are allowed, and we show how the conjugate gradient method can be used as an efficient solver for minimizing the D.S.I. criterion. Applications to interactive gridding with non-deformation constraints for distances and angles are then presented. },
     author = { Levy, Bruno },
     booktitle = { 21st gOcad Meeting },
     month = { "june" },
     publisher = { ASGA },
     title = { A new solver for a subclass of D.S.I. problems applications to interactive parameterizatio },
     year = { 2001 }
    }