Algorithms and Implementation in Numerical Algebraic Geometry

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Overview

The foundation of algebraic geometry is the problem of solving systems of polynomial equations. Numerical methods can be used to perform algebraic geometric computations forming the field of numerical algebraic geometry which continues to advance rapidly. The continuing progress in computer hardware and software has enabled new algorithms and implementations. Examples include irreducible decompositions in multi-projective spaces, and numerical techniques for computing discrete objects such as polytopes. This session will feature recent progress in algorithms and implementations of theoretical advances in numerical algebraic geometry.

Organizer

Tianran Chen

Auburn University at Montgomery

Confirmed Speakers

  • Nathan Bliss (nbliss2@uic.edu)
    University of Illinois at Chicago
  • Jose Rodriguez (JoIsRo@uchicago.edu)
    University of Chicago
  • Jesse Drendel (jesse.drendel@gmail.com)
    Colorado State University
  • Zeng, Zhonggang
    Northeastern Illinois University
  • Dani Brake
    University of Notre Dame
  • Jeff Sommars (sommars1@uic.edu)
    University of Illinois at Chicago
  • Maggie Regan (mregan9@nd.edu)
    University of Notre Dame
  • Lixing Han
    University of Michigan-Flint
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