Chebyshev rational functions

In mathematics the Chebyshev rational functions are a sequence of orthogonal functions. A rational Chebyshev function of degree n is defined as:

${\displaystyle R_{n}(x)\equiv T_{n}\left({\frac {x-1}{x+1}}\right)}$

where ${\displaystyle T_{n}(x)}$ is a Chebyshev polynomial of the first kind.

Many properties can be derived from the properties of the Chebyshev polynomials of the first kind. Other properties are unique to the functions themselves.

${\displaystyle R_{n+1}(x)=2\,{\frac {x-1}{x+1}}R_{n}(x)-R_{n-1}(x)\quad \mathrm {for\,n\geq 1} }$

${\displaystyle (x+1)^{2}R_{n}(x)={\frac {1}{n+1}}{\frac {d}{dx}}\,R_{n+1}(x)-{\frac {1}{n-1}}{\frac {d}{dx}}\,R_{n-1}(x)\quad \mathrm {for\,n\geq 2} }$

Defining:

${\displaystyle \omega (x)\equiv {\frac {1}{(x+1){\sqrt {(}}x)}}}$

The orthogonality of the Chebyshev rational functions may be written:

${\displaystyle \int _{-\infty }^{\infty }R_{m}(x)R_{n}(x)\omega (x)\,dx={\frac {\pi c_{n}}{2}}\,n^{2}\Delta _{nm}}$

where ${\displaystyle c_{n}}$ equals 2 for n=0 and ${\displaystyle c_{n}}$ equals 1 for ${\displaystyle n\geq 1}$ and ${\displaystyle \Delta _{nm}}$ is the Kronecker delta function.

For an arbitrary function ${\displaystyle f(x)\in L_{\omega }^{2}}$ the orthogonality relationship can be used to expand ${\displaystyle f(x)}$:

${\displaystyle f(x)=\sum _{n=0}^{\infty }F_{n}R_{n}(x)}$

where

${\displaystyle F_{n}={\frac {2}{c_{n}\pi }}\int _{-\infty }^{\infty }f(x)R_{n})(x)\omega (x)\,dx}$

${\displaystyle R_{0}(x)=1\,}$

${\displaystyle R_{1}(x)={\frac {x-1}{x+1}}\,}$

${\displaystyle R_{2}(x)={\frac {x^{2}-6x+1}{(x+1)^{2}}}\,}$

${\displaystyle R_{3}(x)={\frac {x^{4}-28x^{3}+70x^{2}-28x+1}{(x+1)^{4}}}\,}$

Guo, Ben-yu (2002). "Chebyshev rational spectral and pseudospectral methods on a semi-infinite interval" (PDF). Int. J. Numer. Meth. Engng. 53: 65–84. doi:10.1002/nme.392. Retrieved 2006-07-25. {{cite journal}}: Cite has empty unknown parameter: |month= (help); Unknown parameter |coauthors= ignored (|author= suggested) (help)