280397 VO MA PE 06/07 Advanced Seismometry (NPI) (2020W)
Labels
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
Details
max. 20 participants
Language: English
Lecturers
Classes (iCal) - next class is marked with N
12:00 - 14:00, Thursday, seminar room of IMGW
- Wednesday 07.10. 11:00 - 12:00 Seminarraum Paläontologie 2B311 3.OG UZA II
- Wednesday 14.10. 11:00 - 12:00 Seminarraum Paläontologie 2B311 3.OG UZA II
- Wednesday 21.10. 11:00 - 12:00 Seminarraum Paläontologie 2B311 3.OG UZA II
- Wednesday 28.10. 11:00 - 12:00 Seminarraum Paläontologie 2B311 3.OG UZA II
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Wednesday
04.11.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
11.11.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
18.11.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
25.11.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
02.12.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
09.12.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
16.12.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
13.01.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
20.01.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II -
Wednesday
27.01.
11:00 - 12:00
Digital
Seminarraum Paläontologie 2B311 3.OG UZA II
Information
Aims, contents and method of the course
The goal of the course is to introduce various methods of seismic data processing, for which more than one seismic station is used with implications for structural studies. It starts with comparison of signals at two stations and proceedes to seismic arrays and large network data analysis. Each method is explained theoretically using intuitive sketches as well as described by equations. Examples of real data processing then follows. We demonstrate the processing steps showing representations in time domain, frequency domain, frequency-time spectrograms, filtered signals, envelope of the signals and others to emphasize different approaches to the same problem. Published papers are presented and implications for both structure and wave propagation are discussed. Advantages as well as drawbacks of the methods are presented. The latest development of the methods in the department is presented.
Assessment and permitted materials
oral examination
Minimum requirements and assessment criteria
General understanding of various methods and techniques for seismic data processing using single station, two stations, networks and arrays.
Examination topics
seismic vocabulary
group/phase velocity
filtering
frequency-time analysis
Fresnel zones
receiver functions - basic ideas
two-station method for surface waves
cross-correlations of ambient noise - basic ideas
network - basic operations
tomography - basic idea
tomography - the simplest "block" parametrization
three-stage approach for surface wave tomography
arrays - 3 stations - the simplest case
arrays - general purpose, beamforming
arrays - f-k analysis
arrays - array response function
rotational seismometry - basic ideas
rotational seismometry - types of measurement
group/phase velocity
filtering
frequency-time analysis
Fresnel zones
receiver functions - basic ideas
two-station method for surface waves
cross-correlations of ambient noise - basic ideas
network - basic operations
tomography - basic idea
tomography - the simplest "block" parametrization
three-stage approach for surface wave tomography
arrays - 3 stations - the simplest case
arrays - general purpose, beamforming
arrays - f-k analysis
arrays - array response function
rotational seismometry - basic ideas
rotational seismometry - types of measurement
Reading list
slides for each lecture (online, printed, pdf), referenced papers and books; see papers and books referenced in the lecture slides
Association in the course directory
Last modified: Fr 12.05.2023 00:22