# Ingrid Daubechies

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**Baroness Ingrid Daubechies** (born 17 August 1954) is a Belgian physicist and mathematician. She is best known for her work with wavelets in image compression, including the Daubechies wavelet. Daubechies is recognized for her study of the mathematical methods that enhance image-compression technology. She is a member of the National Academy of Engineering, the National Academy of Sciences and the American Academy of Arts and Sciences.

## Quotes[edit]

- The wavelet transform is a tool that cuts up data or functions or operators into different frequency components, and then studies each component with a resolution matched to its scale. Forerunners of this technique were invented idependently in pure mathematics (Calderón's resolution of the identity in harmonic analysis—see e.g., Calderón (1964), physics (coherent states for the (
*ax*+*b*)-group in quantum mechanics, first constructed by Aslaksen and Klauder (1968), and linked to the hydrogen atom Hamiltonian by Paul (1985)) and engineering (QMF filters by Esteban and Galland (1977), and later QMF filters with exact reconstruction property by Smith and Barnwell (1986), Vetterli (1986) in electrical engineering; wavelets were proposed for the analysis of seismic data by J. Morlet (1983)). The last five years have seen a synthesis between all these different approaches, which has been very fertile for all the fields concerned.*Ten Lectures on Wavelets*. SIAM. 1 June 1992. p. 1. ISBN 978-0-89871-274-2.

- ... In their mathematical aspect, wavelets are rooted in the use of dilations and convolutions in Calderón-Zygmund theory in harmonic analysis. ... Algorithmically, wavelets are related to subband filtering in electrical engineering. Subband filtering was developed from the 70-s on; exact reconstruction procedures were discovered in the early 80-s. These were obviously fast algorithms, meant as a front-end processing step before encoding or compressing information in various types of signals. A lot of effort went into optimizing the filters for various applications, and this subfield of electrical engineering is now quite mature. ... Another algorithmic ancestor of wavelets are the multiple algorithms in numerical analysis, closer to mathematics, but still ad hoc.
- (1993) Preface. In: Daubechies, I. (ed.).
*Different Perspectives on Wavelets: American Mathematical Society Short Course, January 11–12, 1993, San Antonio, Texas*. Proceedings of Symposia in Applied Mathematics, vol. 47. American Mathematical Society, Providence, Rhode Island. 2016 pbk reprint (quote from p. ix)

- (1993) Preface. In: Daubechies, I. (ed.).

- Mathematicians have various ways of judging the merits of new theorems and constructions. One very important criterion is esthetic — some developments just “feel” right, fitting, and beautiful. Just as in other venues where beauty or esthetics are discussed, taste plays an important role in this, but I think I am not alone in being especially excited when apparently different fields suddenly meet in a new concept, a new understanding. It is often of the sparks of such encounters that our esthetic enjoyment of mathematics is born.

Another important criterion for according merit to some particular piece of mathematics is the extent to which it can be useful in applications; this is the criterion almost exclusively used by nonmathematicians.- (1995) Wavelets and Other Phase Space Localization Methods. In: Chatterji, S.D. (ed.).
*Proceedings of the International Congress of Mathematicians*. Birkhäuser, Basel. doi:10.1007/978-3-0348-9078-6_8

- (1995) Wavelets and Other Phase Space Localization Methods. In: Chatterji, S.D. (ed.).

- The development of wavelets is an example where ideas from many different fields combined to merge into a whole that is more than the sum of its parts. The subject area of wavelets, developed mostly over the last 15 years, is connected to older ideas in many other fields, including pure and applied mathematics, physics, computer science, and engineering.
- (1996). "Where do wavelets come from? A personal point of view".
*Proceedings of the IEEE***84**(4): 510–513.

- (1996). "Where do wavelets come from? A personal point of view".

- We present three recent developments in wavelets and subdivision: wavelet-type transforms that map integers to integers, with an application to lossless coding for images; rate-distortion bounds that realize the compression given by nonlinear approximation theorems for a model where wavelet compression outperforms the Karhunen-Loeve approach; and smoothness results for irregularly spaced subdivision schemes, related to wavelet compression for irregularly spaced data.
- Daubechies, Ingrid (1998). "Recent results in wavelet applications". in Szu, Harold H.
*Wavelet Applications V, volume 3391*. Society of Photo-Optical Instrumentation Engineers (SPIE). pp. 2–9. doi: .

- Daubechies, Ingrid (1998). "Recent results in wavelet applications". in Szu, Harold H.