Basis function

Template:Short description Script error: No such module "Unsubst". In mathematics, a basis function is an element of a particular basis for a function space. Every function in the function space can be represented as a linear combination of basis functions, just as every vector in a vector space can be represented as a linear combination of basis vectors.

In numerical analysis and approximation theory, basis functions are also called blending functions, because of their use in interpolation: In this application, a mixture of the basis functions provides an interpolating function (with the "blend" depending on the evaluation of the basis functions at the data points).

Examples

Monomial basis for C^ω

The monomial basis for the vector space of analytic functions is given by $${\displaystyle \{x^n\mid n\in \mathbb{\mathbb{N}}\}.}$$

This basis is used in Taylor series, amongst others.

Monomial basis for polynomials

The monomial basis also forms a basis for the vector space of polynomials. After all, every polynomial can be written as ${\displaystyle a_0+a_1{x}^1+a_2{x}^2+\cdots +a_n{x}^n}$ for some ${\displaystyle n\in \mathbb{\mathbb{N}}}$, which is a linear combination of monomials.

Fourier basis for L²[0,1]

Sines and cosines form an (orthonormal) Schauder basis for square-integrable functions on a bounded domain. As a particular example, the collection $${\displaystyle \{\sqrt{2}\sin (2\pi nx)\mid n\in \mathbb{\mathbb{N}}\}\cup \{\sqrt{2}\cos (2\pi nx)\mid n\in \mathbb{\mathbb{N}}\}\cup \{1\}}$$ forms a basis for L²[0,1].

See also

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References

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