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One of the numerical characteristics of a function of several variables that can be regarded as a multi-dimensional analogue of the variation of a function of a single variable. Suppose that a real-valued function 
is given on the 
-dimensional parallelopipedon
and introduce the notation
Let 
be an arbitrary partition of 
by hyperplanes
into 
-dimensional parallelopipeda, and let 
take the values 
in an arbitrary way. The Fréchet variation is defined as follows:
If 
, then one says that 
has bounded (finite) Fréchet variation on 
, and the class of all such functions is denoted by 
. For 
, this class was introduced by M. Fréchet [1] in connection with the investigation of the general form of a bilinear continuous functional 
on the space of functions of the form 
that are continuous on the square 
. He proved that every such functional can be represented in the form
where 
, 
.
Analogues of many of the classical criteria for the convergence of Fourier series are valid for 
-periodic functions in the class 
(
, see [2]). For example, if 
, 
then the rectangular partial sums of the Fourier series of 
converge at every point 
to the number
where the summation is taken over all the 
possible combinations of the signs 
. Here, if the function is continuous, the convergence is uniform (an analogue of the Jordan criterion).
References
| [1] | M. Fréchet, "Sur les fonctionelles bilinéaires" Trans. Amer. Math. Soc. , 16 : 3 (1915) pp. 215–234 |
| [2] | M. Morse, W. Transue, "The Fréchet variation and the convergence of multiple Fourier series" Proc. Nat. Acad. Sci. USA , 35 : 7 (1949) pp. 395–399 |
How to Cite This Entry:
Fréchet variation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fr%C3%A9chet_variation&oldid=14364
This article was adapted from an original article by B.I. Golubov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098.
See original article
