Continuity, modulus of
One of the basic characteristics of continuous functions. The modulus of continuity of a continuous function 
on a closed interval is defined, with 
, as
 |
The definition of the modulus of continuity was introduced by H. Lebesgue in 1910, although in essence the concept was known earlier. If the modulus of continuity of a function 
satisfies the condition
 |
where 
, then 
is said to satisfy a Lipschitz condition of order 
.
For a non-negative function 
defined for 
to be the modulus of continuity of some continuous function it is necessary and sufficient that it has the following properties: 
, 
is non-decreasing, 
is continuous, and
 |
One can also consider moduli of continuity of higher orders,
 |
where
 |
is the finite difference of order 
of 
, and moduli of continuity in arbitrary function spaces, for example, the integral modulus of continuity of a function 
that is integrable on 
to the 
-th power, 
:
 | (*) |
For a 
-periodic function the integral in (*) is taken over 
.
References
| [1] | A. Zygmund, "Trigonometric series" , 1 , Cambridge Univ. Press (1988) |
| [2] | N.I. [N.I. Akhiezer] Achiezer, "Theory of approximation" , F. Ungar (1956) (Translated from Russian) |
| [3] | V.K. Dzyadyk, "Introduction to the theory of uniform approximation of functions by polynomials" , Moscow (1977) (In Russian) |
Comments
See also Smoothness, modulus of. Moduli of continuity and smoothness are extensively used in approximation theory and Fourier analysis (cf. Harmonic analysis).
Continuity, modulus of. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Continuity,_modulus_of&oldid=30701