Matthew Trager scite author profile

Matthew Trager

4Publications

165Citation Statements Received

248Citation Statements Given

How they've been cited

160

How they cite others

242

Affiliations

Amazon (Germany), French Institute for Research in Computer Science and Automation, PSL Research University

Publications

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On the Solvability of Viewing Graphs

Trager

Osserman

Ponce

2018

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A set of fundamental matrices relating pairs of cameras in some configuration can be represented as edges of a "viewing graph". Whether or not these fundamental matrices are generically sufficient to recover the global camera configuration depends on the structure of this graph. We study characterizations of "solvable" viewing graphs, and present several new results that can be applied to determine which pairs of views may be used to recover all camera parameters. We also discuss strategies for verifying the solvability of a graph computationally.

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The Joint Image Handbook

Trager

Hebert

Ponce

2015

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Given multiple perspective photographs, point correspondences form the "joint image", effectively a replica of three-dimensional space distributed across its two-dimensional projections. This set can be characterized by multilinear equations over image coordinates, such as epipolar and trifocal constraints. We revisit in this paper the geometric and algebraic properties of the joint image, and address fundamental questions such as how many and which multilinearities are necessary and/or sufficient to determine camera geometry and/or image correspondences. The new theoretical results in this paper answer these questions in a very general setting and, in turn, are intended to serve as a "handbook" reference about multilinearities for practitioners.

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Congruences and concurrent lines in multi-view geometry

Ponce

Sturmfels

Trager

2017

Advances in Applied Mathematics

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We present a new framework for multi-view geometry in computer vision. A camera is a mapping between P 3 and a line congruence. This model, which ignores image planes and measurements, is a natural abstraction of traditional pinhole cameras. It includes two-slit cameras, pushbroom cameras, catadioptric cameras, and many more. We study the concurrent lines variety, which consists of n-tuples of lines in P 3 that intersect at a point. Combining its equations with those of various congruences, we derive constraints for corresponding images in multiple views. We also study photographic cameras which use image measurements and are modeled as rational maps from P 3 to P 2 or P 1 × P 1 .

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Neural Splines: Fitting 3D Surfaces with Infinitely-Wide Neural Networks

Williams

Trager

Bruna

et al. 2021

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Matthew Trager

On the Solvability of Viewing Graphs

The Joint Image Handbook

Congruences and concurrent lines in multi-view geometry

Neural Splines: Fitting 3D Surfaces with Infinitely-Wide Neural Networks

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