Albert Ai is a postdoctoral researcher at the University of Wisconsin-Madison. He received his PhD from the University of California, Berkeley in 2019. His primary research interests include the analysis of nonlinear dispersive PDEs and harmonic analysis. In particular, he has worked on low regularity solutions of fluid models and wave equations.

Thomas Alazard is Director of Research at the CNRS and Associate Professor at the École normale supérieure Paris-Saclay. He received his PhD from the University of Bordeaux, France, in 2005. Previously, he worked at the Orsay mathematics department and at the École normale supérieure in Paris. His research focuses on the analysis of partial differential equations, a subject on which he has written several books.

Mihaela Ifrim is currently a Professor of Mathematics at the University of Wisconsin, Madison. She studied mathematics in Bucharest and at the University of California, Davis, where she received her Ph.D. in 2012. After a Simons postdoctoral fellowship at UC Berkeley, in 2017 she moved Madison, where she was a Sloan Research Fellow and a CAREER grant recipient. Her work spans many directions in nonlinear partial differential equations, including fluid dynamics and nonlinear dispersive flows, with an emphasis on free boundary problems and on the study of low regularity local and global dynamics of the solutions.

Daniel Tataru is a Distinguished Professor in Mathematics at the University of California, Berkeley. He is well known for his substantial contributions to dispersive pde's, also in connection to fluid dynamics, harmonic analysis, geometry, general relativity and free boundary problems. He studied mathematics at the University of Iasi, in Romania, and then at University of Virginia, where he received his Ph.D. in 1992. He spent almost a decade at Northwestern university, before moving to Berkeley. Among other honors, he is a Fellow of both the American Academy of Arts and Sciences and the European Academy of Sciences, as well as a Simons Investigator since 2013.

Part I Functional Analysis.- 1 Topological Vector Spaces.- 2 Fixed Point Theorems.- 3 Hilbertian Analysis, Duality and Convexity.- Part II Harmonic Analysis.- 4 Fourier Series.- 5 Fourier Transform.- 6 Convolution.- 7 Sobolev Spaces.- 8 Harmonic Functions.- Part III Microlocal Analysis.- 9 Pseudo-Differential Operators.- 10 Symbolic Calculus.- 11 Hyperbolic Equations.- 12 Microlocal Singularities.- Part IV Analysis of Partial Differential Equations.- 13 The Calderón Problem.- 14 De Giorgi's Theorem.- 15 Schauder's Theorem.- 16 Dispersive Estimates.- Part V Recap and Solutions to the Exercises.- 17 Recap on General Topology.- 18 Inequalities in Lebesgue Spaces.- 19 Solutions.