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WiSe 2024/25

Risk projects and evaluation of structures - Einzelansicht

  • Funktionen:
Grunddaten
Veranstaltungsart Vorlesung SWS 5
Veranstaltungsnummer 2202005 Max. Teilnehmer/-innen
Semester WiSe 2023/24 Zugeordnetes Modul
Erwartete Teilnehmer/-innen
Rhythmus jedes 2. Semester
Hyperlink https://moodle.uni-weimar.de/course/view.php?id=46288
Sprache englisch
Termine Gruppe: [unbenannt]
  Tag Zeit Rhythmus Dauer Raum Raum-
plan
Lehrperson Bemerkung fällt aus am Max. Teilnehmer/-innen
Einzeltermine anzeigen
Mo. 15:15 bis 16:45 Einzel am 27.11.2023 Marienstraße 7 B - PC-Pool Luna-blue      
Einzeltermine anzeigen
Mo. 13:30 bis 16:45 Einzel am 05.02.2024 Marienstraße 7 B - Seminarraum 205  

Final presentations

 
Einzeltermine anzeigen
Di. 11:00 bis 12:30 Einzel am 06.02.2024 Marienstraße 7 B - Seminarraum 205  

Final presentations

 
Einzeltermine anzeigen
Di. 11:00 bis 12:30 wöch. Marienstraße 7 B - Seminarraum 205  

exercise

 
Einzeltermine anzeigen
Mo. 15:15 bis 16:45 wöch. Marienstraße 7 B - Seminarraum 205  

lecture

 
Gruppe [unbenannt]:
 
 


Zugeordnete Personen
Zugeordnete Personen Zuständigkeit
Schwarz, Jochen Bernhard Rudolf , Dr.-Ing. verantwortlich
Abrahamczyk, Lars, Jun.Prof., Dr.-Ing. verantwortlich
Maiwald, Holger , Dr.-Ing. begleitend
Hasan, Peshawa Luqman begleitend
Uzair, Aanis , Master of Science begleitend
Beinersdorf, Silke , Dr.-Ing.
Studiengänge
Abschluss Studiengang Semester Leistungspunkte
M. Sc. Natural Hazards and Risk Engineering (M.Sc.), PV 16 3 - 3 6
M. Sc. Natural Hazards and Risk Engineering (M.Sc.), PV 19 3 - 3 6
M. Sc. Natural Hazards and Risk Engineering (M.Sc.), PV 2020 3 - 3 6
Zuordnung zu Einrichtungen
Komplexe Tragwerke
Erdbebenzentrum
Inhalt
Beschreibung

Students will be familiar with the different risk elements in disaster mitigation studies and problems encountered in the design of buildings against earthquake and wind action. Students will be able to apply methods and current state in natural hazard and risk assessment integrating research and practical applications to urban settlements or structure-specific risk analysis and planning decisions. Students will be familiar with different analysis methods, knowledge-based techniques and tools of empirical and analytical vulnerability assessment. Students will be familiar with the existing building typologies and be able to evaluate the quality of structural systems, to interpret the performance under horizontal action. Students are encouraged to contribute reports of regionally particular building types to World Housing Encyclopedia and/or NHRE database (collection of world-wide case studies à wind or earthquake dominated design; tall & high-rise buildings à comparison of horizontal actions).

 

Methods for risk assessment of buildings and urban settlements (L)

Lessons from recent events (earthquake, wind, flood) and field missions; assessment of hazard phenomena; reinterpretation of observed response for different building types; building taxonomies; knowledge-based exposure modelling; empirical and analytical vulnerability assessment; damage classification and fragility functions; damage modelling for large building stocks (earthquake, wind, flood); social risk modelling; decision support systems for OEF, EEW and RRE; building assessment criteria for existing and new building stock; assessment of structural performance under wind and earthquake.

Response estimate for disastrous events (E, P)

Training in risk scenarios: elaboration of input data for the target area (home countries), generation of shake maps; elaboration of fragility functions; generation of risk scenarios for testbeds or virtual cities and application of decision support system; simulation of mitigation measures.

Studies on Recent Natural Hazard Events (P)

Description and assessment of hazard phenomena; affected regions; building types; reinterpretation of observed damages for different building types; conclusions from rapid response actions; initiated/necessary mitigation measures (consequences of the event); recent developments in design and construction.

 

Literatur

Publication from the lecturers, thesis, etc. (further announced on Moodle) / Grünthal, G. (ed.), Musson, R., Schwarz, J., Stucchi, M. (1998): European Macroseismic Scale 1998. Cahiers du Centre Européen de Geodynamique et de Seismologie, Volume 15, Luxembourg / Maiwald, H., Schwarz, J. (2019): Unified damage description and risk assessment of buildings under extreme natural hazards, European Journal of Masonry 23, 2, 95-111. / Schwarz, J., Abrahamczyk, L., Leipold, M., Wenk, T. (2015): Vulnerability assessment and damage description for R.C. frame structures following the EMS-98 principles. Bulletin of Earthquake Engineering Vol. 13 (4), 1141-1159. / WHE (2004): World Housing Encyclopedia [Internet]. http://www.world-housing.net/

Voraussetzungen

B.Sc.

Seismic Monitoring / Earthquake Engineering

Leistungsnachweis

1 written exam “Risk evaluation for buildings and urban settlements” 90 min (50%) / WiSe + SuSe

1 Project presentation (oral) “Response estimate for disastrous and recent events” (35%) / WiSe

1 Project presentation (oral) “Studies on Recent Natural Hazard Events” (15%) / WiSe


Strukturbaum
Keine Einordnung ins Vorlesungsverzeichnis vorhanden. Veranstaltung ist aus dem Semester WiSe 2023/24 , Aktuelles Semester: WiSe 2024/25

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