Das Frühjahrssemester 2021 findet sicher bis Ostern online statt. Ausnahmen: Veranstaltungen, die nur mit Präsenz vor Ort durchführbar sind. Bitte beachten Sie die Informationen der Dozierenden.

Simona Esposito: Katalogdaten im Herbstsemester 2016

NameFrau Simona Esposito
Adresse
Prof. Stojadinovic
ETH Zürich, HIL E12.1
Stefano-Franscini-Platz 5
8093 Zürich
SWITZERLAND
E-Mailsimona.esposito@ibk.baug.ethz.ch
DepartementBau, Umwelt und Geomatik
BeziehungDozentin

NummerTitelECTSUmfangDozierende
101-0179-00LProbabilistic Seismic Risk Analysis and Management for Civil Systems3 KP2GB. Stojadinovic, M. Broccardo, S. Esposito, P. Galanis
KurzbeschreibungAdvanced topics covered in this course are: 1) probabilistic seismic hazard analysis; 2) probabilistic seismic risk analysis; 3) seismic risk management using structural and financial engineering means; and, time permitting, 4) advanced topics in systemic probabilistic risk evaluation.
LernzielAfter successfully completing this course the students will be able to:

1. Gather the necessary data and conduct a probabilistic seismic hazard analysis for a site.
2. Gather the necessary data and conduct a probabilistic vulnerability analysis of a building or an element of a civil infrastructure system at a site.
3. Design structural and/or financial engineering solutions to mitigate the seismic risk at a site.
InhaltThis course extends the series of two courses on seismic design of structures at ETHZ and introduces the topic of probabilistic seismic risk analysis and seismic risk management for the build environment and civil infrastructure systems. The following advanced topics will be covered in this course: 1) probabilistic seismic hazard analysis; 2) probabilistic seismic risk analysis; 3) seismic risk management using structural and financial engineering means; and, time permitting, 4) advanced topics in systemic probabilistic risk evaluation.
SkriptThe electronic copies of the learning material will be uploaded to ILIAS and available through myStudies. This will include the lecture notes, additional reading, and exercise problems and solutions. There is no textbook for this course.
LiteraturReading material:
- Jack R Benjamin, C. Allin Cornell (2014) Probability, Statistics, and Decision for Civil Engineers
- A. H-S. Ang (Author), W. H. Tang Probability Concepts in Engineering: Emphasis on Applications to Civil and Environmental Engineering
- P.E. Pinto, R. Giannini and P. Franchin (2004) Seismic reliability analysis of structures, IUSSPress. Pavia;
- McGuire, R.K. 2004. Seismic hazard and risk analysis: EERI Monograph MNO-10, Earthquake Engineering Research Institute.
- A Mc. Neil, R. Frey and P. Embrechts, Quantitative Risk Management, Concepts, Techniques and Tools, Princeton University Press, 2015
- R. Rees, A. Wambach, The Microeconomics of Insurance, Foundations and Trends in Microeconomics, Vol. 4, Mps. 1-2 (2008), pp. 1- 163, DOI: 10.1561/0700000023
- Earthquake Engineering: From Engineering Seismology to Performance-Based Engineering, Yousef Borzorgnia and Vitelmo Bertero, Eds., CRC Press, 2004
- Dynamics of Structures: Theory and Applications to Earthquake Engineering, 4th edition, Anil Chopra, Prentice Hall, 2012
- Erdbebensicherung von Bauwerken, 2nd edition, Hugo Bachmann, Birkhäuser, Basel, 2002

References:
-Norm SIA 261: Einwirkungen auf Tragwerke (Actions on Structures). Schweizerischer Ingenieur- und Architekten-Verein, Zürich, 2003

Software:
- Bispec: software for unidirectional and bidirectional dynamic time-history and spectral seismic analysis of a simple dynamic system. http://eqsols.com/Bispec.aspx
- SAP2000 v15.1: general-purpose 3D nonlinear structural analysis software. http://www.csiberkeley.com/sap2000
- OpenSees: Open System for Earthquake Engineering Simulation, is an object-oriented, open- source software framework. http://opensees.berkeley.edu/
Voraussetzungen / BesonderesETH Seismic Design of Structures I course (101-0188-00), or equivalent. Students are expected to understand the seismological nature of earthquakes, to characterize the ground motion excitation, to analyze the response of elastic single- and multiple-degree-of-freedom systems to earthquake excitation, to use the concept of response and design spectrum, to compute the equivalent seismic loads on simple structures, and to perform code-based seismic design of simple structures.