Jonas Östlund scite author profile

Abstract-We show that by extending the Laplacian formalism, which was first introduced in the Graphics community to regularize 3D meshes, we can turn the monocular 3D shape reconstruction of a deformable surface given correspondences with a reference image into a much better-posed problem. This allows us to quickly and reliably eliminate outliers by simply solving a linear least squares problem. This yields an initial 3D shape estimate, which is not necessarily accurate, but whose 2D projections are. The initial shape is then refined by a constrained optimization problem to output the final surface reconstruction. Our approach allows us to reduce the dimensionality of the surface reconstruction problem without sacrificing accuracy, thus allowing for real-time implementations.

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Laplacian Meshes for Monocular 3D Shape Recovery

Östlund

Varol

Ngo

et al. 2012

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Abstract. We show that by extending the Laplacian formalism, which was first introduced in the Graphics community to regularize 3D meshes, we can turn the monocular 3D shape reconstruction of a deformable surface given correspondences with a reference image into a well-posed problem. Furthermore, this does not require any training data and eliminates the need to pre-align the reference shape with the one to be reconstructed, as was done in earlier methods.

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Simultaneous pose, correspondence and non-rigid shape

Sanchez-Riera

Östlund

Fua

et al. 2010

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Jonas Östlund

Template-Based Monocular 3D Shape Recovery Using Laplacian Meshes

Laplacian Meshes for Monocular 3D Shape Recovery

Simultaneous pose, correspondence and non-rigid shape

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