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A Length-Constrained Ideal Curve Flow

Journal Article


Abstract


  • A recent article [1] considered the so-called 'ideal curve flow', a sixth-order curvature flow that seeks to deform closed planar curves to curves with least variation of total geodesic curvature in the L2 sense. It was critical in the analysis in that article that there was a length bound on the evolving curves. It is natural to suspect therefore that the length-constrained ideal curve flow should permit a more straightforward analysis, at least in the case of small initial 'energy'. In this article we show this is indeed the case, with suitable initial data providing a flow that exists for all time and converges smoothly and exponentially to a multiply-covered round circle of the same length and winding number as the initial curve.

Publication Date


  • 2022

Citation


  • McCoy, J. A., Wheeler, G. E., & Wu, Y. (2022). A Length-Constrained Ideal Curve Flow. Quarterly Journal of Mathematics, 73(2), 685-699. doi:10.1093/qmath/haab050

Scopus Eid


  • 2-s2.0-85133512780

Start Page


  • 685

End Page


  • 699

Volume


  • 73

Issue


  • 2

Place Of Publication


Abstract


  • A recent article [1] considered the so-called 'ideal curve flow', a sixth-order curvature flow that seeks to deform closed planar curves to curves with least variation of total geodesic curvature in the L2 sense. It was critical in the analysis in that article that there was a length bound on the evolving curves. It is natural to suspect therefore that the length-constrained ideal curve flow should permit a more straightforward analysis, at least in the case of small initial 'energy'. In this article we show this is indeed the case, with suitable initial data providing a flow that exists for all time and converges smoothly and exponentially to a multiply-covered round circle of the same length and winding number as the initial curve.

Publication Date


  • 2022

Citation


  • McCoy, J. A., Wheeler, G. E., & Wu, Y. (2022). A Length-Constrained Ideal Curve Flow. Quarterly Journal of Mathematics, 73(2), 685-699. doi:10.1093/qmath/haab050

Scopus Eid


  • 2-s2.0-85133512780

Start Page


  • 685

End Page


  • 699

Volume


  • 73

Issue


  • 2

Place Of Publication