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Nearest-neighbor interpolation

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(Redirected from Proximal interpolation)
Nearest neighbor interpolation (blue lines) in one dimension on a (uniform) dataset (red points)
Nearest neighbor interpolation on a uniform 2D grid (black points). Each colored cell indicates the area in which all the points have the black point in the cell as their nearest black point.

Nearest-neighbor interpolation (also known as proximal interpolation or, in some contexts, point sampling) is a simple method of multivariate interpolation in one or more dimensions.

Interpolation is the problem of approximating the value of a function for a non-given point in some space when given the value of that function in points around (neighboring) that point. The nearest neighbor algorithm selects the value of the nearest point and does not consider the values of neighboring points at all, yielding a piecewise-constant interpolant.[1] The algorithm is very simple to implement and is commonly used (usually along with mipmapping) in real-time 3D rendering[2] to select color values for a textured surface.

Connection to Voronoi diagram

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For a given set of points in space, a Voronoi diagram is a decomposition of space into cells, one for each given point, so that anywhere in space, the closest given point is inside the cell. This is equivalent to nearest neighbor interpolation, by assigning the function value at the given point to all the points inside the cell.[3] The figures on the right side show by color the shape of the cells.

Comparison of Nearest-neighbor interpolation with some 1- and 2-dimensional interpolations.
Black and red/yellow/green/blue dots correspond to the interpolated point and neighbouring samples, respectively.
Their heights above the ground correspond to their values.
This Voronoi diagram is an example of nearest neighbor interpolation of a random set of points (black dots) in 2D.

See also

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References

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  1. ^ Thévenaz, Philippe; Blu, Philippe; Unser, Philippe (2000). "Image Interpolation and Resampling". Handbook of Medical Imaging. Academic Press. p. 405. doi:10.1016/b978-012077790-7/50030-8.
  2. ^ Pfister, HANSPETER (2005). "Hardware-Accelerated Volume Rendering". In Charles D. Hansen and Chris R. Johnson (ed.). The Visualization Handbook. Elsevier. p. 233. doi:10.1016/b978-012387582-2/50013-7.
  3. ^ Hartmann, K.; Krois, J.; Rudolph, A. (2023). "Statistics and Geodata Analysis using R (SOGA-R)". Department of Earth Sciences, Freie Universität Berlin. Retrieved 2024-11-14.