Uniqueness of Fourier Representations

In course

Commodo sunt dolor quis adipisicing minim nulla proident. Deserunt irure consectetur amet consequat nulla. Anim eiusmod do mollit deserunt amet occaecat ut velit voluptate non nostrud. Eiusmod fugiat incididunt consequat cillum officia et.

Description

This lecture delves into the uniqueness of Fourier representations, exploring the extension of Fourier series to continuous functions on the circle. The instructor discusses the concept of approximate identity, introducing the Cesàro means and the Schwartz derivative. Through a detailed proof, the lecture demonstrates that if a function is represented by two different Fourier series, both valid at every point, then the coefficients must be equal. The proof involves controlling the coefficients, showing that they converge to zero. The lecture also touches upon the convergence properties of Fourier series for continuous functions, highlighting the importance of the uniqueness theorem in harmonic analysis. The instructor provides insights into the historical context of the theorem, its implications, and related open questions in the field.

Instructor

aliqua nulla

Quis aute nisi do magna eu exercitation veniam pariatur excepteur dolor ad tempor adipisicing. Dolor aliquip pariatur mollit exercitation eiusmod aliquip sint dolor velit ullamco magna. Reprehenderit nisi ea adipisicing labore aliqua occaecat. Id elit in ipsum officia exercitation adipisicing. Cillum non eu exercitation in voluptate deserunt anim nulla Lorem nostrud Lorem veniam eu irure.

Official source

https://mediaspace.epfl.ch/media/0_46rl3vsp

About this result

This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.

Related lectures (33)