Yves Meyer: Detection of gravitational waves and time-frequency wavelets
Summary:
Sergey Klimenko designed the algorithm used to detect gravitational waves. This algorithm depends on the time-frequency wavelets which have been elaborated by Ingrid Daubechies, Stéphane Jaffard, and Jean-Lin Journé. After describing the now famous discovery of gravitational waves the focus will be on time-frequency analysis.
This lecture was held by the 2017 Abel Laurate Yves Meyer, École Normale Supérieure Paris-Saclay, at The University of Oslo, May 24, 2017 and was part of the Abel Prize Lectures in connection with the Abel Prize Week celebrations.
Program for the Abel Lectures 2017:
1. Detection of gravitational waves and time-frequency wavelets, by Abel Laureate Yves Meyer, École Normale Supérieure Paris-Saclay
2. A Wavelet Zoom to Analyze a Multiscale World, by professor Stéphane Mallat, École Normale Supérieure
3. Wavelet bases: roots, surprises and applications, by professor Ingrid Daubechies, Duke University
4. Wavelets, sparsity and its consequences, professor Emmanuel Jean Candès, Stanford University
Thumbnail photo: Acadadémie des sciences, FR
Видео Yves Meyer: Detection of gravitational waves and time-frequency wavelets канала The Abel Prize
Sergey Klimenko designed the algorithm used to detect gravitational waves. This algorithm depends on the time-frequency wavelets which have been elaborated by Ingrid Daubechies, Stéphane Jaffard, and Jean-Lin Journé. After describing the now famous discovery of gravitational waves the focus will be on time-frequency analysis.
This lecture was held by the 2017 Abel Laurate Yves Meyer, École Normale Supérieure Paris-Saclay, at The University of Oslo, May 24, 2017 and was part of the Abel Prize Lectures in connection with the Abel Prize Week celebrations.
Program for the Abel Lectures 2017:
1. Detection of gravitational waves and time-frequency wavelets, by Abel Laureate Yves Meyer, École Normale Supérieure Paris-Saclay
2. A Wavelet Zoom to Analyze a Multiscale World, by professor Stéphane Mallat, École Normale Supérieure
3. Wavelet bases: roots, surprises and applications, by professor Ingrid Daubechies, Duke University
4. Wavelets, sparsity and its consequences, professor Emmanuel Jean Candès, Stanford University
Thumbnail photo: Acadadémie des sciences, FR
Видео Yves Meyer: Detection of gravitational waves and time-frequency wavelets канала The Abel Prize
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Yves Meyer - The Abel Prize interview 2017Ingrid Daubechies: Wavelet bases: roots, surprises and applicationsTerrence Tao on Yves Meyer's work on WaveletsAndrew Wiles talks to Hannah FryStéphane Mallat: A Wavelet Zoom to Analyze a Multiscale WorldUsing Stars to See Gravitational WavesCortical Travelling Waves: Mechanisms and Computational PrinciplesMathematicians helping Art Historians and Art Conservators — Ingrid Daubechies — ICM2018Yves Meyer - The 2017 Abel Prize LaureateStéphane Mallat - Learning Physics with Deep Neural Networks (October 17, 2018)Interview at CIRM: Ingrid DaubechiesCédric Villani - Of triangles, gases, prices and menLászló Lovász’ reaction to winning the Abel PrizeAndrew Wiles - The Abel Prize interview 2016Short interview with Avi Wigderson2015 Math Panel with Donaldson, Kontsevich, Lurie, Tao, Taylor, MilnerKaren Uhlenbeck: Some Thoughts on the Calculus of VariationsThe Great Mathematicians - Professor Robin Wilson and Dr Raymond FloodBuilding a Galaxy-Scale Gravitational Wave Detector | Dr. Shami Chatterjee | Talks at Google