Polar factorization and monotone rearrangement of vector‐valued functions

Brenier, Yann

doi:10.1002/cpa.3160440402

Cited by 1,344 publications

(1,342 citation statements)

References 7 publications

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“…In this section, we will employ a natural solution to the optimal transport problem based on the equivalent problem of polar factorization; see [6], [14], [24] and the references therein. We will work with the general case of subdomains in i.e., we can decompose % § into the sum of a curl-free and divergence-free vector field [32].…”

Section: A Polar Factorization and Rearrangement Mapsmentioning

confidence: 99%

Optimal Mass Transport for Registration and Warping

Haker

Zhu

Tannenbaum

et al. 2004

International Journal of Computer Vision

348

356

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Image registration is the process of establishing a common geometric reference frame between two or more image data sets possibly taken at different times. In this paper we present a method for computing elastic registration and warping maps based on the Monge-Kantorovich theory of optimal mass transport. This mass transport method has a number of important characteristics. First, it is parameter free. Moreover, it utilizes all of the grayscale data in both images, places the two images on equal footing and is symmetrical: the optimal mapping from image to image ¡ being the inverse of the optimal mapping from ¡ to £ ¢ The method does not require that landmarks be specified, and the minimizer of the distance functional involved is unique; there are no other local minimizers. Finally, optimal transport naturally takes into account changes in density that result from changes in area or volume. Although the optimal transport method is certainly not appropriate for all registration and warping problems, this mass preservation property makes the Monge-Kantorovich approach quite useful for an interesting class of warping problems, as we show in this paper. Our method for finding the registration mapping is based on a partial differential equation approach to the minimization of the ¤ ¦ ¥ Kantorovich-Wasserstein or "Earth Mover's Distance" under a mass preservation constraint. We show how this approach leads to practical algorithms, and demonstrate our method with a number of examples, including those from the medical field. We also extended this method to take into account changes in intensity, and show that it is well suited for applications such as image morphing.

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Section: A Polar Factorization and Rearrangement Mapsmentioning

confidence: 99%

Optimal Mass Transport for Registration and Warping

Haker

Zhu

Tannenbaum

et al. 2004

International Journal of Computer Vision

348

356

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“…The quadratic cost on R n . In [14,15], Brenier considered the case X = Y = R n and c(x, y) = |x−y| 2 /2, and proved the following theorem (which was also obtained independently by Cuesta-Albertos and Matrán [32] and by Rachev and Rüschendorf [99]). For an idea of the proof, see the sketch of the proof of Theorem 3.6 below, which includes this result as a special case.…”

Section: The Optimal Transport Problemmentioning

confidence: 97%

The Monge–Ampère equation and its link to optimal transportation

Philippis

Figalli

2014

Bull. Amer. Math. Soc.

127

116

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“…The Monge-Kantorovich functional (2) is seen to place a penalty on the distance the mapũ moves each bit of material, weighted by the material's mass. A fundamental theoretical result [4,10], is that there is a unique optimalũ ∈ M P transporting µ 0 to µ 1 , and that thisũ is characterized as the gradient of a convex function w, i.e.,ũ = ∇w. This theory translates into a practical advantage, since it means that there are no non-global minima to stall our solution process.…”

Section: Formulation Of the Problemmentioning

confidence: 99%

“…Inspired by [4,9], we consider the family of MP mappings of the form u = u • s −1 as s varies over MP mappings from Ω 0 to itself, and try find an s which yields aũ without any curl, that is, such thatũ = ∇w. Once such an s is found, we will have the Monge-Kantorovich mappingũ.…”

Section: Computing the Transport Mapmentioning

confidence: 99%

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Mass Preserving Mappings and Image Registration

Haker

Tannenbaum

Kikinis

2001

Medical Image Computing and Computer-Assisted Intervention – MICCAI 2001

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Abstract. Image registration is the process of establishing a common geometric reference frame between two or more data sets from the same or different imaging modalities possibly taken at different times. In the context of medical imaging and in particular image guided therapy, the registration problem consists of finding automated methods that align multiple data sets with each other and with the patient. In this paper we propose a method of mass preserving elastic registration based on the Monge-Kantorovich problem of optimal mass transport.

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Polar factorization and monotone rearrangement of vector‐valued functions

Cited by 1,344 publications

References 7 publications

Optimal Mass Transport for Registration and Warping

Optimal Mass Transport for Registration and Warping

The Monge–Ampère equation and its link to optimal transportation

Mass Preserving Mappings and Image Registration

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