Time and Location Tuesday/Thursday 12:05 pm - 1:25 pm, ES & T, L1175
Office Hours: Tuesday/Thursday 1:30 pm - 2:30 pm (immediately after class)
This is an advanced level course designed to involve students into seismological research. The topics covered include digital signal processing, seismometers and seismic networks, basic and advanced seismic data processing tools, travel time and synthetic seismogram calculations, earthquake location, magnitude, and microseismic analysis, etc. The class also includes an optional field trip to learn how to deploy seismometers in the field (location TBD).
Zhou, H.-W. Practical Seismic Data Analysis, Cambridge University Press, 2015.
Shearer, P. M. Introduction to Seismology, Second Edition, Cambridge University Press, 2009.
Lay, T., & T.C. Wallace, Modern Global Seismology , Academic Press, 1995.
- Stein, S.A.,& M. Wysession, An Introduction to Seismology, Earthquakes, and Earth Structure, Blackwell Publishing, 498 pp., 2003.
Additional material will be either handed out in class or made available on the course website.
This is an approximate outline of topics and timing and is subject to change throughout the semester.
| Classes|| Date ||Topic ||Assignments |
Your course grade will be based on three criteria: homework (50%), paper reading and discussion (15%), final project (25%), and 15% Field Trip or Final exam.
There will be five homework problems, which will involve analysis of selected issues, including analytical calculations, computer simulations, or data analysis. The homework is designed for each student to work by him/herself. The homework will count as 50% of your overall course grade, with each counting 10%.
Paper Reading and Discussion:
In the last part of the class, we will discuss three topics of modern research in the field of observational and computational seismology. You are required to submit (electronically) a 2-page summary after each topic. Paper reading and discussion comprises 15% of your total grade, and 10% is based mainly on your written summary and 5% in-class participation.
Term Paper Project:
You are required to write a term paper with any topic related to this course. These can be literature reviews, or research projects involving calculations, data analysis, or theoretical results done in consultation with the instructor. The topic needed to be approved by the instructor before the spring break. Your paper should be written up in journal form with length (double space, 12-point fonts, minimum 12 pages), figures and referencing in a format suitable for submission to journals like Geophysical Research Letters (GRL). Preliminary version of the final paper should be shown to the instructor for approval at least two weeks beforehand. You will present your term paper in a 15 minute AGU-style talk; a 12 minute presentation with 3 minutes of questions. The project will count as 25% of your overall course grade, in which 15% will be based on the quality of the project, 10% on written and oral presentation.
Field trip/Final exam:
We will organize a field trip to learn how to deploy seismometers in the field. The time and location is to be determined, but will likely happen in mid-March or during spring break. Those participating in the field trip are required to write a 5-page field report to document experience learned in the field. The field trip component will count as 15% of the overall grade, in which 5% will be based on the participation in the field trip, and 10% on the field report. Those who are unable to attend the field trip will be required to take a final exam, which covers all the topics (including those in paper discussions) for the entire semester.
It is expected that all students are aware of their individual responsibilities under the Georgia Tech Academic Honor Code, which will be strictly adhered to in this class. The complete text of the Georgia Tech Academic Honor Code is at
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