Transfinite interpolation

In numerical analysis, transfinite interpolation is a means to construct functions over a planar domain in such a way that they match a given function on the boundary. This method is applied in geometric modelling and in the field of finite element method.^[1]

The transfinite interpolation method, first introduced by William J. Gordon and Charles A. Hall,^[2] receives its name due to how a function belonging to this class is able to match the primitive function at a nondenumerable number of points.^[3] In the authors' words: Template:Centered pull quote

Transfinite interpolation is similar to the Coons patch, invented in 1967. ^[4]

With parametrized curves ${\displaystyle {\overrightarrow{c}}_1(u)}$, ${\displaystyle {\overrightarrow{c}}_3(u)}$ describing one pair of opposite sides of a domain, and ${\displaystyle {\overrightarrow{c}}_2(v)}$, ${\displaystyle {\overrightarrow{c}}_4(v)}$ describing the other pair. the position of point (u,v) in the domain is

${\displaystyle \begin{array}{ccc}\overrightarrow{S}(u,v)& =& (1-v){\overrightarrow{c}}_1(u)+v{\overrightarrow{c}}_3(u)+(1-u){\overrightarrow{c}}_2(v)+u{\overrightarrow{c}}_4(v)\\ & & -[(1-u)(1-v){\overrightarrow{P}}_{1,2}+uv{\overrightarrow{P}}_{3,4}+u(1-v){\overrightarrow{P}}_{1,4}+(1-u)v{\overrightarrow{P}}_{3,2}]\end{array}}$

where, e.g., ${\displaystyle {\overrightarrow{P}}_{1,2}}$ is the point where curves ${\displaystyle {\overrightarrow{c}}_1}$ and ${\displaystyle {\overrightarrow{c}}_2}$ meet.

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