Difference between revisions of "Fejér summation method"
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A summation method of arithmetical averages (cf. [[Arithmetical averages, summation method of|Arithmetical averages, summation method of]]), applied to the summation of Fourier series. It was first applied by L. Fejér [[#References|[1]]]. | A summation method of arithmetical averages (cf. [[Arithmetical averages, summation method of|Arithmetical averages, summation method of]]), applied to the summation of Fourier series. It was first applied by L. Fejér [[#References|[1]]]. | ||
The Fourier series | The Fourier series | ||
| − | + | $$\frac12+\sum_{n=1}^\infty(a_n\cos nx+b_n\sin nx)\label{1}\tag{1}$$ | |
| − | of a function | + | of a function $f\in L(-\pi,\pi)$ is summable by the Fejér summation method to a function $s$ if |
| − | + | $$\lim_{n\to\infty}\sigma_n(x)=s(x),$$ | |
where | where | ||
| − | + | $$\sigma_n(x)=\frac{1}{n+1}\sum_{k=0}^ns_k(x),\label{2}\tag{2}$$ | |
| − | and the | + | and the $s_k(x)$ are the partial sums of \eqref{1}. |
| − | If | + | If $x$ is a point of continuity of $f$ or a discontinuity of the first kind, then its Fourier series at that point is Fejér summable to $f(x)$ or to $(f(x+0)+f(x-0))/2$, respectively. If $f$ is continuous on some interval $(a,b)$, then its Fourier series is uniformly Fejér summable on every segment $[\alpha,\beta]\subset(a,b)$; and if $f$ is continuous everywhere, then the series is summable to $f$ uniformly on $[-\pi,\pi]$ (Fejér's theorem). |
| − | This result was strengthened by H. Lebesgue [[#References|[2]]], who proved that for every summable function | + | This result was strengthened by H. Lebesgue [[#References|[2]]], who proved that for every summable function $f$, its Fourier series is almost-everywhere Fejér summable to $f$. |
The function | The function | ||
| − | + | $$K_n(x)=\frac{1}{n+1}\sum_{k=0}^n\left(\frac12+\sum_{\nu=1}^k\cos\nu x\right)\equiv$$ | |
| − | + | $$\equiv\frac{1}{2(n+1)}\left(\frac{\sin(n+1)x/2}{\sin x/2}\right)^2$$ | |
| − | is called the Fejér kernel. It can be used to express the Fejér means | + | is called the Fejér kernel. It can be used to express the Fejér means \eqref{2} of $f$ in the form |
| − | + | $$\sigma_n(x)=\frac1\pi\int_{-\pi}^\pi f(x+u)K_n(u)du.$$ | |
====References==== | ====References==== | ||
Latest revision as of 17:25, 14 February 2020
A summation method of arithmetical averages (cf. Arithmetical averages, summation method of), applied to the summation of Fourier series. It was first applied by L. Fejér [1].
The Fourier series
$$\frac12+\sum_{n=1}^\infty(a_n\cos nx+b_n\sin nx)\label{1}\tag{1}$$
of a function $f\in L(-\pi,\pi)$ is summable by the Fejér summation method to a function $s$ if
$$\lim_{n\to\infty}\sigma_n(x)=s(x),$$
where
$$\sigma_n(x)=\frac{1}{n+1}\sum_{k=0}^ns_k(x),\label{2}\tag{2}$$
and the $s_k(x)$ are the partial sums of \eqref{1}.
If $x$ is a point of continuity of $f$ or a discontinuity of the first kind, then its Fourier series at that point is Fejér summable to $f(x)$ or to $(f(x+0)+f(x-0))/2$, respectively. If $f$ is continuous on some interval $(a,b)$, then its Fourier series is uniformly Fejér summable on every segment $[\alpha,\beta]\subset(a,b)$; and if $f$ is continuous everywhere, then the series is summable to $f$ uniformly on $[-\pi,\pi]$ (Fejér's theorem).
This result was strengthened by H. Lebesgue [2], who proved that for every summable function $f$, its Fourier series is almost-everywhere Fejér summable to $f$.
The function
$$K_n(x)=\frac{1}{n+1}\sum_{k=0}^n\left(\frac12+\sum_{\nu=1}^k\cos\nu x\right)\equiv$$
$$\equiv\frac{1}{2(n+1)}\left(\frac{\sin(n+1)x/2}{\sin x/2}\right)^2$$
is called the Fejér kernel. It can be used to express the Fejér means \eqref{2} of $f$ in the form
$$\sigma_n(x)=\frac1\pi\int_{-\pi}^\pi f(x+u)K_n(u)du.$$
References
| [1] | L. Fejér, "Untersuchungen über Fouriersche Reihen" Math. Ann. , 58 (1903) pp. 51–69 |
| [2] | H. Lebesgue, "Recherches sur la convergence de séries de Fourier" Math. Ann. , 61 (1905) pp. 251–280 |
| [3] | N.K. [N.K. Bari] Bary, "A treatise on trigonometric series" , Pergamon (1964) (Translated from Russian) |
| [4] | A. Zygmund, "Trigonometric series" , 1–2 , Cambridge Univ. Press (1988) |
Comments
See also Cesàro summation methods.
How to Cite This Entry:
Fejér summation method. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fej%C3%A9r_summation_method&oldid=22413
Fejér summation method. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fej%C3%A9r_summation_method&oldid=22413
This article was adapted from an original article by I.I. Volkov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article