Function approximation: Difference between revisions
imported>Igor Grešovnik m (Added See also) |
imported>Igor Grešovnik mNo edit summary |
||
| Line 8: | Line 8: | ||
== See also == | == See also == | ||
*[[Approximation theory]] | *[[Approximation theory]] | ||
*[[Least squares approximation]] | |||
*[[Function (mathematics)]] | *[[Function (mathematics)]] | ||
Revision as of 21:40, 23 November 2007
A function approximation problem asks us to select a function among a well-defined class that closely matches (approximates) a target function.
There are two major classes of function approximation problems. For known target functions approximation theory investigates how certain known functions can be approximated by a specific class of functions (for example, polynomials or rational functions).
In the second class of problems, the target function (say f) may be unknown. Instead of an explicit formula, only a set of points of the form (x, f(x)) is provided. Several techniques for approximating f may be applicable (depending on the structure of the domain and codomain of f), such as interpolation, extrapolation, regression analysis, and curve fitting.