lunduniversity.lu.se

# Details for Course FMA260F Functional Analysis and Harmonic Analysis

General
• FMA260F
• Discontinued
Course Name
• Functional Analysis and Harmonic Analysis
Course Extent
• 7.5
Type of Instruction
• Course given jointly for second and third cycle
• 7151 (Centre of Mathematical Sciences / Mathematics)
•  -11-15
• FN1/Anders Gustafsson

## Current Established Course Syllabus

General
Aim
• Functional analysis and harmonic analysis are fundamental tools in many mathematical applications (e.g., in field theory, solid mechanics, control theory, signal processing) and in mathematical statistics and numerical analysis. The aim of the course is to convey knowledge about basic concepts and methods, and to give the ability, both to follow discussions where these are used and to independently solve mathematical problems which arise in the applications. An important goal of the course is also to develop a power of abstraction which makes it easier to see analogies between problems from apparently different fields.
Contents
• Functional analysis: norms and approximation, completeness, compactness, function spaces, Hilbert spaces, orthogonality and orthogonal systems, linear operators, spectral theory. Dual spaces and Hahn-Banach.

Harmonic analysis: the Fourier transform and Sobolev spaces. Uncertainty relations, the sampling theorem, Fourier transforms and analytic functions, the Hilbert transform.
Knowledge and Understanding
• For a passing grade the doctoral student must
• have knowledge of different common norms and their usefulness in different applications.

be familiar with the meaning of the concepts of completeness and compactness, and be aware that the choice of norm has an impact on these properties of a space. In particular, the student should have a good understanding of the difference between the infinite and the finite dimensional case.

be familiar with the basic properties of the dual space of a normed space.

be familiar with the most common classes of linear and bounded operators, and have an understanding of how spectral theory provides information on the properties of a linear operator.

be familiar with how the properties of a function are reflected in its Fourier transform.

be able to explain the basic theory in an oral examination.
Competences and Skills
• For a passing grade the doctoral student must
• with access to literature independenly be able to integrate methods and approaches from different parts of the course in order to solve problems and answer questions within the framework of the course.

in writing and orally, with proper terminology and clear logic be able to explain the solution to a mathematical problem within the course.

be able to translate concrete mathematical problems into the abstract language of the course.
Judgement and Approach
• For a passing grade the doctoral student must
Types of Instruction
• Lectures
• Exercises
Examination Formats
• Written exam
• Oral exam
• Failed, pass
Assumed Prior Knowledge
Selection Criteria
Literature
• Renardy, M. & Rogers, Robert C.: An Introduction to Partial Differential Equations. Springer, 2004. ISBN 9780387004440.
• Some further material.
Further Information
Course code
• FMA260F
•  -11-15
• FN1/Anders Gustafsson

## All Established Course Syllabi

1 course syllabus.

Valid from First hand in Second hand in Established
Autumn 2013 2013‑10‑11 17:58:14 2013‑10‑29 15:52:58 2013‑11‑15

## Current or Upcoming Published Course Occasion

No matching course occasion was found.

## All Published Course Occasions

No matching course occasions were found.

0 course occasions.