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

Draisma, Jan; Horobet, Emil

doi:10.1080/03081087.2016.1164660

Cited by 11 publications

(16 citation statements)

References 19 publications

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“…In this section, we present a brief account of recent work on multidimensional tensors of rank one [14]. For these, the ED degree is computed in [15], and the average ED degree is computed in [10]. Our discussion includes partially symmetric tensors, and it represents a step towards extending the Eckart-Young theorem from matrices to tensors.…”

Section: Tensors Of Rank Onementioning

confidence: 99%

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The Euclidean Distance Degree of an Algebraic Variety

et al. 2015

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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 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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Section: Tensors Of Rank Onementioning

confidence: 99%

“…The case of multidimensional tensors, while of equally fundamental importance, is much more involved. In Section 8, following [10,14,15], we give an account of recent results on the ordinary and average ED degree of the variety of rank one tensors.…”

Section: Introductionmentioning

confidence: 99%

The Euclidean Distance Degree of an Algebraic Variety

et al. 2015

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“…In [8] Draisma and Horobet point out that application-oriented algorithms to compute the best rank-one approximations, or, more generally, the best low-rank approximations, are mostly of a local nature. Therefore, they face difficulties when close to nonminimal critical points of the distance function that one wants to minimize.…”

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confidence: 99%

The Expected Number of Eigenvalues of a Real Gaussian Tensor

Breiding¹

2017

SIAM J. Appl. Algebra Geometry

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“…Again for a sample of 100000 forms f , we have estimated the probabilities of the aleatory variables X f = (0, 2, 4) for d = 4, Y f = (1, 3, 5) for d = 5 and respectively X yfx−xfy = (0, 2, 4), Y yfx−xfy = (1, 3, 5) with respect to f and yf x − xf y and then relative expected values and we expect that E(X f ) ≈ √ d and E(X yfx−xfy ) ≈ √ 3d − 2 and the same for E(Y f ) and E(Y yfx−xfy ) (see Example 1.6 in [8] and Example 4.8 in [9]):…”

Section: Binary Formsmentioning

confidence: 99%

The number of real eigenvectors of a real polynomial

Maccioni

2017

Boll Unione Mat Ital

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I investigate on the number t of real eigenvectors of a real symmetric tensor. In particular, given a homogeneous polynomial f of degree d in 3 variables, I prove that t is greater or equal than 2c + 1, if d is odd, and t is greater or equal than max(3, 2c + 1), if d is even, where c is the number of ovals in the zero locus of f . About binary forms, I prove that t is greater or equal than the number of real roots of f . Moreover, the above inequalities are sharp for binary forms of any degree and for cubic and quartic ternary forms.

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

Cited by 11 publications

References 19 publications

The Euclidean Distance Degree of an Algebraic Variety

The Euclidean Distance Degree of an Algebraic Variety

The Expected Number of Eigenvalues of a Real Gaussian Tensor

The number of real eigenvectors of a real polynomial

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