Sobolev orthogonal polynomials explained

In mathematics, Sobolev orthogonal polynomials are orthogonal polynomials with respect to a Sobolev inner product, i.e. an inner product with derivatives.

By having conditions on the derivatives, the Sobolev orthogonal polynomials in general no longer share some of the nice features that classical orthogonal polynomials have.

Sobolev orthogonal polynomials are named after Sergei Lvovich Sobolev.

Definition

Let

\mu_0,\mu_1,...,\mu_n

be positive Borel measures on

with finite moments. Consider the inner product

\langlep_r,p_s

\rangle
	W^n,2

=\int_Rp_r(x)p_s(x) d\mu_{0+\sum\limits}

	n

	k=1

\int_R

	(k)
p
	r

(x)

	(k)
p
	s

(x) d\mu_k

and let

W^n,2

be the corresponding Sobolev space. The Sobolev orthogonal polynomials

\{p_n\}_n\geq

are defined as

\langlep_n,p_s

\rangle
	W^n,2

=c_n\delta_n,s

where

\delta_n,s

denotes the Kronecker delta. One says that these polynomials are sobolev orthogonal.^[1]

Explanation

Classical orthogonal polynomials are Sobolev orthogonal polynomials, since their derivatives are also orthogonal polynomials.
Sobolev orthogonal polynomials in general are no longer commutative in the multiplication operator with respect to the inner product, i.e.

\langlexp_n,p_s\rangle


	W^n,2

≠ \langlep_n,xp_s\rangle


	W^n,2

Consequently neither Favard's theorem, the three term recurrence or the Christoffel-Darboux formula hold. There exist however other recursion formulas for certain types of measures.

There exist a lot of literature for the case

n=1

Literature

Francisco. Marcellán. Yuan. Xu. On Sobolev orthogonal polynomials. 2015. 308–352. Expositiones Mathematicae. 33. 3. 1403.6249.
Francisco. Marcellán. Juan. Moreno-Balcázar. 2017. 873–875. WHAT IS... a Sobolev Orthogonal Polynomial?. 64. Notices of the American Mathematical Society. 10.1090/noti1562. free.

References

Francisco. Marcellán. Juan. Moreno-Balcázar. 2017. 873–875. WHAT IS... a Sobolev Orthogonal Polynomial?. 64. Notices of the American Mathematical Society. 10.1090/noti1562. free.