Uses of Interface
dev.nm.analysis.curvefit.interpolation.bivariate.BivariateGrid
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Packages that use BivariateGrid Package Description dev.nm.analysis.curvefit.interpolation.bivariate -
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Uses of BivariateGrid in dev.nm.analysis.curvefit.interpolation.bivariate
Classes in dev.nm.analysis.curvefit.interpolation.bivariate that implement BivariateGrid Modifier and Type Class Description class
BivariateArrayGrid
Implementation ofBivariateGrid
, backed by arrays.class
BivariateRegularGrid
A regular grid is a tessellation of n-dimensional Euclidean space by congruent parallelotopes (e.g.Methods in dev.nm.analysis.curvefit.interpolation.bivariate with parameters of type BivariateGrid Modifier and Type Method 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
BicubicInterpolation. interpolate(BivariateGrid grid)
RealScalarFunction
BicubicSpline. interpolate(BivariateGrid grid)
RealScalarFunction
BilinearInterpolation. interpolate(BivariateGrid grid)
RealScalarFunction
BivariateGridInterpolation. interpolate(BivariateGrid grid)
Constructs a real valued function from a grid of observations.
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