Fejér kernel

From Infogalactic: the planetary knowledge core

Jump to: navigation, search

In mathematics, the Fejér kernel is a summability kernel used to express the effect of Cesàro summation on Fourier series. It is a non-negative kernel, giving rise to an approximate identity. It is named after the Hungarian mathematician Lipót Fejér (1880–1959).

File:Fejér kernel.svg

Plot of several Fejér kernels

Contents

1 Definition
2 Properties
- 2.1 Convolution
3 See also
4 References

Definition

The Fejér kernel is defined as

F_n(x) = \frac{1}{n} \sum_{k=0}^{n-1}D_k(x),

where

D_k(x)=\sum_{s=-k}^k {\rm e}^{isx}

is the kth order Dirichlet kernel. It can also be written in a closed form as

F_n(x) = \frac{1}{n} \left(\frac{\sin \frac{n x}{2}}{\sin \frac{x}{2}}\right)^2 = \frac{1}{n} \left(\frac{1 - \cos(nx)}{1 - \cos x}\right)

,

where this expression is defined.^[1]

The Fejér kernel can also be expressed as

F_n(x)=\sum_{|j|\le n}\left(1-\frac{|j|}{n}\right)e^{ijx}

.

Properties

The Fejér kernel is a positive summability kernel. An important property of the Fejér kernel is $F_n(x) \ge 0$ with average value of $1$ .

Convolution

The convolution F_n is positive: for $f \ge 0$ of period $2 \pi$ it satisfies

0 \le (f*F_n)(x)=\frac{1}{2\pi}\int_{-\pi}^\pi f(y) F_n(x-y)\,dy.

Since $f*D_n=S_n(f)=\sum_{|j|\le n}\widehat{f}_je^{ijx}$ , we have $f*F_n=\frac{1}{n}\sum_{k=0}^{n-1}S_k(f)$ , which is Cesàro summation of Fourier series.

By Young's inequality,

\|F_n*f \|_{L^p([-\pi, \pi])} \le \|f\|_{L^p([-\pi, \pi])}

for every

1 \le p \le \infty

for $f\in L^p$ .

Additionally, if $f\in L^1([-\pi,\pi])$ , then

f*F_n \rightarrow f

Since $[-\pi,\pi]$ is finite, $L^1([-\pi,\pi])\supset L^2([-\pi,\pi])\supset\cdots\supset L^\infty([-\pi,\pi])$ , so the result holds for other $L^p$ spaces, $p\ge1$ as well.

If $f$ is continuous, then the convergence is uniform, yielding a proof of the Weierstrass theorem.

One consequence of the pointwise a.e. convergence is the uniquess of Fourier coefficients: If $f,g\in L^1$ with $\hat{f}=\hat{g}$ , then $f=g$ a.e. This follows from writing $f*F_n=\sum_{|j|\le n}\left(1-\frac{|j|}{n}\right)e^{ijt}$ , which depends only on the Fourier coefficients.
A second consequence is that if $\lim_{n\to\infty}S_n(f)$ exists a.e., then $\lim_{n\to\infty}F_n(f)=f$ a.e., since Cesàro means $F_n*f$ converge to the original sequence limit if it exists.

See also

References

↑ Lua error in package.lua at line 80: module 'strict' not found.

Retrieved from "https://infogalactic.com/w/index.php?title=Fejér_kernel&oldid=1293979"

Hidden category:

Pages with script errors