In mathematics, a sequence of vectors (xn) in a Hilbert space is called a Riesz sequence if there exist constants such that
for all sequences of scalars (an) in the ℓp space ℓ2. A Riesz sequence is called a Riesz basis if
- .
Alternatively, one can define the Riesz basis as a family of the form , where is an orthonormal basis for and is a bounded bijective operator. Hence, Riesz bases need not be orthonormal, i.e., they are a generalization of orthonormal bases.[1]
Paley-Wiener criterion
editLet be an orthonormal basis for a Hilbert space and let be "close" to in the sense that
for some constant , , and arbitrary scalars . Then is a Riesz basis for .[2][3]
Theorems
editIf H is a finite-dimensional space, then every basis of H is a Riesz basis.
Let be in the Lp space L2(R), let
and let denote the Fourier transform of . Define constants c and C with . Then the following are equivalent:
The first of the above conditions is the definition for ( ) to form a Riesz basis for the space it spans.
See also
editNotes
edit- ^ Antoine & Balazs 2012.
- ^ Young 2001, p. 35.
- ^ Paley & Wiener 1934, p. 100.
References
edit- Antoine, J.-P.; Balazs, P. (2012). "Frames, Semi-Frames, and Hilbert Scales". Numerical Functional Analysis and Optimization. 33 (7–9). arXiv:1203.0506. doi:10.1080/01630563.2012.682128. ISSN 0163-0563.
- Christensen, Ole (2001), "Frames, Riesz bases, and Discrete Gabor/Wavelet expansions" (PDF), Bulletin of the American Mathematical Society, New Series, 38 (3): 273–291, doi:10.1090/S0273-0979-01-00903-X
- Mallat, Stéphane (2008), A Wavelet Tour of Signal Processing: The Sparse Way (PDF) (3rd ed.), pp. 46–47, ISBN 9780123743701
- Paley, Raymond E. A. C.; Wiener, Norbert (1934). Fourier Transforms in the Complex Domain. Providence, RI: American Mathematical Soc. ISBN 978-0-8218-1019-4.
- Young, Robert M. (2001). An Introduction to Non-Harmonic Fourier Series, Revised Edition, 93. Academic Press. ISBN 978-0-12-772955-8.
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