Emil Horobet scite author profile

The nearest point map of a real algebraic variety with respect to Euclidean distance is an algebraic function. For instance, for varieties of low-rank matrices, the Eckart-Young Theorem states that this map is given by the singular value decomposition. This article develops a theory of such nearest point maps from the perspective of computational algebraic geometry. The Euclidean distance degree of a variety is the number of critical points of the squared distance to a general point outside the variety. Focusing on varieties seen in applications, we present numerous tools for exact computations.Communicated by James Renegar.

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Orthogonal and unitary tensor decomposition from an algebraic perspective

Boralevi

Draisma

Horobet

et al. 2017

Isr. J. Math.

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While every matrix admits a singular value decomposition, in which the terms are pairwise orthogonal in a strong sense, higher-order tensors typically do not admit such an orthogonal decomposition. Those that do have attracted attention from theoretical computer science and scientific computing. We complement this existing body of literature with an algebrogeometric analysis of the set of orthogonally decomposable tensors.More specifically, we prove that they form a real-algebraic variety defined by polynomials of degree at most four. The exact degrees, and the corresponding polynomials, are different in each of three times two scenarios: ordinary, symmetric, or alternating tensors; and real-orthogonal versus complex-unitary.A key feature of our approach is a surprising connection between orthogonally decomposable tensors and semisimple algebras-associative in the ordinary and symmetric settings and of compact Lie type in the alternating setting.Contents arXiv:1512.08031v1 [math.AG] 25

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Offset hypersurfaces and persistent homology of algebraic varieties

Horobet

Weinstein

2019

Computer Aided Geometric Design

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In this paper, we study the persistent homology of the offset filtration of algebraic varieties. We prove the algebraicity of two quantities central to the computation of persistent homology. Moreover, we connect persistent homology and algebraic optimization. Namely, we express the degree corresponding to the distance variable of the offset hypersurface in terms of the Euclidean Distance Degree of the starting variety, obtaining a new way to compute these degrees. Finally, we describe the non-properness locus of the offset construction and use this to describe the set of points that are topologically interesting (the medial axis and center points of the bounded components of the complement of the variety) and relevant to the computation of persistent homology.

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The average number of critical rank-one approximations to a tensor

Draisma

Horobet

2016

Linear and Multilinear Algebra

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The euclidean distance degree

Draisma

Horobet

Ottaviani

et al. 2014

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The nearest point map of a real algebraic variety with respect to Euclidean distance is an algebraic function. For instance, for varieties of low rank matrices, the Eckart-Young Theorem states that this map is given by the singular value decomposition. This article develops a theory of such nearest point maps from the perspective of computational algebraic geometry. The Euclidean distance degree of a variety is the number of critical points of the squared distance to a generic point outside the variety. Focusing on varieties seen in applications, we present numerous tools for computation.

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Emil Horobet

The Euclidean Distance Degree of an Algebraic Variety

Orthogonal and unitary tensor decomposition from an algebraic perspective

Offset hypersurfaces and persistent homology of algebraic varieties

The average number of critical rank-one approximations to a tensor

The euclidean distance degree

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