You need to log in to edit.

You can create a new account if you don't have one.

Or, discuss a change on Slack.

You can create a new account if you don't have one.

Or, discuss a change on Slack.

1 code implementation • 3 Feb 2022 • Bernd Sturmfels, Simon Telen, François-Xavier Vialard, Max von Renesse

Entropic regularization is a method for large-scale linear programming.

no code implementations • 9 Dec 2020 • Bernd Sturmfels, Simon Telen

We relate scattering amplitudes in particle physics to maximum likelihood estimation for discrete models in algebraic statistics.

Algebraic Geometry High Energy Physics - Theory Statistics Theory Statistics Theory

no code implementations • 16 Aug 2019 • Marta Panizzut, Emre Can Sertöz, Bernd Sturmfels

We present a new normal form for cubic surfaces that is well suited for p-adic geometry, as it reveals the intrinsic del Pezzo combinatorics of the 27 trees in the tropicalization.

Algebraic Geometry 14Q10, 14J26, 14T05, 12J25

no code implementations • 5 Sep 2018 • Max Pfeffer, Anna Seigal, Bernd Sturmfels

Given a tensor in the orbit of another tensor, we compute a matrix which transforms one to the other.

no code implementations • 19 Oct 2017 • Tobias Boege, Alessio D'Alì, Thomas Kahle, Bernd Sturmfels

A gaussoid is a combinatorial structure that encodes independence in probability and statistics, just like matroids encode independence in linear algebra.

Combinatorics Commutative Algebra Statistics Theory Statistics Theory

no code implementations • 6 Jul 2017 • Kathlén Kohn, Bernd Sturmfels, Matthew Trager

Visual events in computer vision are studied from the perspective of algebraic geometry.

no code implementations • CVPR 2017 • Zuzana Kukelova, Joe Kileel, Bernd Sturmfels, Tomas Pajdla

We present a new insight into the systematic generation of minimal solvers in computer vision, which leads to smaller and faster solvers.

no code implementations • CVPR 2017 • Matthew Trager, Bernd Sturmfels, John Canny, Martial Hebert, Jean Ponce

The rational camera model recently introduced in [19] provides a general methodology for studying abstract nonlinear imaging systems and their multi-view geometry.

no code implementations • 6 Oct 2016 • Joe Kileel, Zuzana Kukelova, Tomas Pajdla, Bernd Sturmfels

The distortion varieties of a given projective variety are parametrized by duplicating coordinates and multiplying them with monomials.

no code implementations • 21 Aug 2016 • Jean Ponce, Bernd Sturmfels, Matthew Trager

We present a new framework for multi-view geometry in computer vision.

no code implementations • 6 Oct 2015 • Sameer Agarwal, Hon-Leung Lee, Bernd Sturmfels, Rekha R. Thomas

essential) matrix given $m$ point correspondences in two views.

no code implementations • 10 Sep 2015 • Michael Joswig, Joe Kileel, Bernd Sturmfels, André Wagner

The multiview variety from computer vision is generalized to images by $n$ cameras of points linked by a distance constraint.

no code implementations • 21 Jul 2014 • Sameer Agarwal, Hon-Leung Lee, Bernd Sturmfels, Rekha R. Thomas

Given a set of point correspondences in two images, the existence of a fundamental matrix is a necessary condition for the points to be the images of a 3-dimensional scene imaged with two pinhole cameras.

2 code implementations • 30 Aug 2009 • Maria Angelica Cueto, Jason Morton, Bernd Sturmfels

The restricted Boltzmann machine is a graphical model for binary random variables.

Cannot find the paper you are looking for? You can
Submit a new open access paper.

Contact us on:
hello@paperswithcode.com
.
Papers With Code is a free resource with all data licensed under CC-BY-SA.