Inpainting for Fringe Projection Profilometry Based on Geometrically Guided Iterative Regularization

Budianto,; Lun, Daniel Pak-Kong

doi:10.1109/tip.2015.2481707

Cited by 24 publications

(11 citation statements)

References 59 publications

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“…In Horn, it is defined a curve that minimises the square of the curvature, which is also called minimum energy curve; Baran et al proposes to minimise the total length of the clothoid spline. Examples of applications are shape editing as in Havemann et al, path tracking, path planning, traffic modelling, road geometry estimation, fringe projection, and manufacturing . A selection of functionals and BCs is herein proposed.…”

Section: Interpolation Problem Listmentioning

confidence: 99%

Interpolating clothoid splines with curvature continuity

Bertolazzi

Frego

2017

Math Methods in App Sciences

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An efficient algorithm for the computation of a C2 interpolating clothoid spline is herein presented. The spline is obtained following an optimisation process, subject to continuity constraints. Among the 9 various targets/problems considered, there are boundary conditions, minimum length path, minimum jerk, and minimum curvature (energy). Some of these problems are solved with just a couple of Newton iterations, whereas the more complex minimisations are solved with few iterations of a nonlinear solver. The solvers are warmly started with a suitable initial guess, which is extensively discussed, making the algorithm fast. Applications of the algorithm are shown relating to fonts, path planning for human walkers, and as a tool for the time‐optimal lap on a Formula 1 circuit track.

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Section: Interpolation Problem Listmentioning

confidence: 99%

Interpolating clothoid splines with curvature continuity

Bertolazzi

Frego

2017

Math Methods in App Sciences

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“…To deal with overexposure in the captured fringe pattern image, Ref. [26] estimates the geometric sketch of the error area first and uses iterative regularization to inpaint the fringe pattern. Only a fringe pattern is projected, so it is more efficient, but it is limited by the area size with error and is difficult to apply when the overexposed area is large.…”

Section: Literature Reviewmentioning

confidence: 99%

Dynamic projection theory for fringe projection profilometry

Sheng

Zhang

2017

Appl. Opt.

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Fringe projection profilometry (FPP) has been widely used for three-dimensional reconstruction, surface measurement, and reverse engineering. However, FPP is prone to overexposure if objects have a wide range of reflectance. In this paper, we propose a dynamic projection theory based on FPP to rapidly measure the overexposed region with an attempt to conquer this challenge. This theory modifies the projected fringe image to the next better measurement based on the feedback provided by the previously captured image intensity. Experiments demonstrated that the number of overexposed points can be drastically reduced after one or two iterations. Compared with the state-of-the-art methods, our proposed dynamic projection theory measures the overexposed region quickly and effectively and, thus, broadens the applications of FPP.

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“…Concerning (ii), for a long time clothoids have been used by route designers as transitional curves between straight lines and circular arcs, and between circular arcs of different radii; see for instance [3,33]. Nowadays, they are further used in connection with path planning for autonomous vehicles, e.g., [2,5,10] in computer vision and image processing [8,27], in curve editing for design purposes [24], or representing hand-drawn strokes sketched by a user [9,32]. Concerning (i), many of the above applications are rather time critical and it is often important to have algorithms which are as fast as possible at a given (sometimes moderate) approximation quality.…”

Section: Introductionmentioning

confidence: 99%

Clothoid fitting and geometric Hermite subdivision

Reif

Weinmann

2021

Adv Comput Math

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We consider geometric Hermite subdivision for planar curves, i.e., iteratively refining an input polygon with additional tangent or normal vector information sitting in the vertices. The building block for the (nonlinear) subdivision schemes we propose is based on clothoidal averaging, i.e., averaging w.r.t. locally interpolating clothoids, which are curves of linear curvature. To this end, we derive a new strategy to approximate Hermite interpolating clothoids. We employ the proposed approach to define the geometric Hermite analogues of the well-known Lane-Riesenfeld and four-point schemes. We present numerical results produced by the proposed schemes and discuss their features.

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Inpainting for Fringe Projection Profilometry Based on Geometrically Guided Iterative Regularization

Cited by 24 publications

References 59 publications

Interpolating clothoid splines with curvature continuity

Interpolating clothoid splines with curvature continuity

Dynamic projection theory for fringe projection profilometry

Clothoid fitting and geometric Hermite subdivision

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