Dette er en gammel utgave av dokumentet!
TMA4170 Fourier analysis, spring 2019
Course description can be found here.
Messages
- The first lecture will take place in GL-SB2 S21 on Monday, January 7. Instead of the text book, we will use the lecture notes (see below: SYLLABUS-Notes). But this is not an online course, motivation and necessary details, missing from the notes, are lectured. You are recommended to read section 4 "Appendix 1" part of notes before the lecture.
- The first exercise session will take place in S21, 15th January, 16:15-17:00
- Exercise for week 2 can be found at the end of the notes, week 3 exercise will be handed out on Thursday, 10th January.
Course Information
- Time Plan can be found here.
LECTURES
- Mondays 12:15-14:00, S21 Sentralbygg 2
- Thursdays 10:15-12:00, S21 Sentralbygg 2
EXERCISE SESSIONS
- Tuesdays 16:15-17:00, S21 Sentralbygg 2
EXAM
- Exam date: May 31, 09:00-13:00
- Permitted aids: One A-4 sized sheet of yellow paper stamped by the Department of Math. Sciences (on it you may in advance write whatever you like).
SYLLABUS-Notes
The curriculum is covered mainly by the lectures (based on the notes found in TMA4170 notes (renewed from time to time)) and everything handed out during the lectures.
Recommend books
The Fourier analysis part of the notes is based on the following two books:
E. M. Stein & R. Shakarchi: Fourier Analysis, An Introduction, Princeton University Press, 2003
H. Dym & H. P. McKean: Fourier Series and Integrals, Academic Press, 1972
The wavelet part of the notes is based on the following book:
A. Boggess & F. Narcowich: A first course in Wavelets with Fourier Analysis, Wiley, 2nd Edition, 2009.
The book is available as an eBook through the university library, although restricted to only one person at a time.
As mentioned on page 160 of Boggess & Narcowich, Yves Meyer, Wavelets, Algorithms and Applications, SIAM, 1993 is interesting reading. Ingrid Daubechies: Ten Lectures on Wavelets, SIAM, 1992 is a classic that goes more deeply into the various aspects of wavelet theory.
LECTURER
- Helge Holden: Office 1156 in SB II, helge [dot] holden [at] ntnu [dot] no
- Xu Wang: Office 942 in SB II, xu [dot] wang [at] ntnu [dot] no
REFERENCE GROUP
CONSULTATION BEFORE THE EXAM
TBA
FINAL EXAM
TBA
Exercises
We will hand out the exercise every week, on the other hand all the exercises can be found at the end of notes, they are NOT mandatory, but strongly recommended.
Previous exams:
NOTE: The exams from 2014 and older are written with a slightly different curriculum in mind and as such may contain exercises not covered by the current curriculum!
Tentative Lecture Plan (according to the notes)
Week 2 | 1.1-1.5 | |
Week 3 | 1.5, Appendix 2 | |
Week 4 | 1.6-1.7 | |
Week 5 | 1.7-1.8 | |
Week 6 | 2.1-2.3 | |
Week 7 | 2.4 | |
Week 8 | 2.5-2.6 | |
Week 9 | 2.7-2.8 | |
Week 10 | TBA | |
Week 11 | TBA | |
Week 12 | TBA | |
Week 13 | TBA | |
Week 14 | TBA | |
Week 15 | Repetition |
Actual Lecture Plan
Week 2 | Fourier series, Pointwise and Mean square convergence | Xu |
Week 3 | Lebesgue integral, elementary solution of D+s | Xu |
Week 4 | TBA | Helge |
Week 5 | TBA | Helge |
Week 6 | TBA | |
Week 7 | TBA | |
Week 8 | TBA | |
Week 9 | TBA | |
Week 10 | TBA | |
Week 11 | TBA | |
Week 12 | TBA | |
Week 13 | TBA | |
Week 14 | TBA | |
Week 15 | TBA |