Package | Description |
---|---|
dev.nm.analysis.curvefit.interpolation.bivariate |
Modifier and Type | Class and Description |
---|---|
class |
BivariateArrayGrid
Implementation of
BivariateGrid , backed by arrays. |
class |
BivariateRegularGrid
A regular grid is a tessellation of n-dimensional Euclidean space by congruent parallelotopes
(e.g.
|
Modifier and Type | Method and Description |
---|---|
double |
BicubicInterpolation.PartialDerivatives.dx(BivariateGrid grid,
int i,
int j)
Get the partial derivative \(\frac{\partial z}{\partial x}\), at the given position in
the grid.
|
double |
PartialDerivativesByCenteredDifferencing.dx(BivariateGrid grid,
int i,
int j) |
double |
BicubicInterpolation.PartialDerivatives.dxdy(BivariateGrid grid,
int i,
int j)
Get the cross derivative \(\frac{\partial^2 z}{\partial x \partial y}\), at the given
position in the grid.
|
double |
PartialDerivativesByCenteredDifferencing.dxdy(BivariateGrid grid,
int i,
int j) |
double |
BicubicInterpolation.PartialDerivatives.dy(BivariateGrid grid,
int i,
int j)
Get the partial derivative \(\frac{\partial z}{\partial y}\), at the given position in
the grid.
|
double |
PartialDerivativesByCenteredDifferencing.dy(BivariateGrid grid,
int i,
int j) |
RealScalarFunction |
BilinearInterpolation.interpolate(BivariateGrid grid) |
RealScalarFunction |
BicubicSpline.interpolate(BivariateGrid grid) |
RealScalarFunction |
BivariateGridInterpolation.interpolate(BivariateGrid grid)
Construct a real valued function from a grid of observations.
|
RealScalarFunction |
BicubicInterpolation.interpolate(BivariateGrid grid) |
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