Bernstein interpolation method
A sequence of algebraic polynomials converging uniformly on 
to a function 
that is continuous on this interval. More precisely, Bernstein's interpolation method is a sequence of algebraic polynomials
 |
where the
 |
are the Chebyshev polynomials; the
 |
are the interpolation nodes; and
 |
if 
is an arbitrary positive integer, 
, 
, 
, 
otherwise
 |
The ratio between the degree of the polynomial 
and the number of points at which 
equals 
is 
, which tends to 
as 
; if 
is sufficiently large, this limit is arbitrary close to one. The method was introduced by S.N. Bernstein [S.N. Bernshtein] in 1931 [1].
References
| [1] | S.N. Bernshtein, , Collected works , 2 , Moscow (1954) pp. 130–140 (In Russian) |
Comments
This method of interpolation seems not very well known in the West. There is, however, a well-known method of Bernstein that uses the special interpolation nodes 
, 
, for bounded functions on 
. This method is given by the Bernstein polynomials. The sequence of Bernstein polynomials 
constructed for a bounded function 
on 
converges to 
at each point of continuity 
of 
. If 
is continuous on 
, the sequence converges uniformly (to 
) on 
. If 
is differentiable, 
(at each point of continuity of 
), cf [a1].
This method of Bernstein is often used to prove the Weierstrass theorem (on approximation). For a generalization of the method (the monotone-operator theorem), see [a2], Chapt. 3, Sect. 3. See also Approximation of functions, linear methods.
References
| [a1] | P.J. Davis, "Interpolation and approximation" , Dover, reprint (1975) |
| [a2] | E.W. Cheney, "Introduction to approximation theory" , Chelsea, reprint (1982) pp. 203ff |
Bernstein interpolation method. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bernstein_interpolation_method&oldid=46026