Her primary areas of investigation include Seismic hazard, Seismic risk, Structural engineering, Civil engineering and Earthquake scenario. Helen Crowley combines subjects such as Probabilistic logic and Earthquake simulation with her study of Seismic hazard. She merges Seismic risk with Fragility in her research.
Her work in the fields of Structural engineering, such as Response spectrum, Limit state design and Reinforced concrete, intersects with other areas such as Limit and Vulnerability assessment. Her work in Civil engineering addresses issues such as Earthquake engineering, which are connected to fields such as Stiffness. Within one scientific family, Helen Crowley focuses on topics pertaining to Urban seismic risk under Earthquake scenario, and may sometimes address concerns connected to Induced seismicity, Peak ground acceleration and Hazard analysis.
Helen Crowley focuses on Fragility, Seismic risk, Structural engineering, Seismic hazard and Forensic engineering. As part of her inquiry into Civil engineering and Seismology, Helen Crowley is doing Seismic risk research. In the subject of general Seismology, her work in Induced seismicity and Peak ground acceleration is often linked to Magnitude, thereby combining diverse domains of study.
Her study in the fields of Masonry, Limit state design and Reinforced concrete under the domain of Structural engineering overlaps with other disciplines such as Vulnerability assessment. In general Seismic hazard study, her work on Earthquake scenario often relates to the realm of Hazard, thereby connecting several areas of interest. Her work focuses on many connections between Earthquake scenario and other disciplines, such as Urban seismic risk, that overlap with her field of interest in Environmental resource management.
Helen Crowley spends much of her time researching Fragility, Seismic risk, Seismology, Soil structure interaction and Induced seismicity. Her Seismic risk research includes themes of Code and Forensic engineering. Her is doing research in Seismic hazard and Earthquake engineering, both of which are found in Seismology.
Her research in Seismic hazard intersects with topics in Earthquake risk and Foundation. Soil structure interaction is a subfield of Structural engineering that Helen Crowley studies. Her Data collection study combines topics from a wide range of disciplines, such as Seismic loading, Probabilistic logic, Probabilistic framework and Frequency of exceedance.
Helen Crowley mostly deals with Fragility, Seismic risk, Forensic engineering, Induced seismicity and Unreinforced masonry building. Her study of Fragility brings together topics like Current, Empirical data, Risk analysis, Response analysis and Shallow foundation. Her study in Seismic risk is interdisciplinary in nature, drawing from both Earthquake risk, Seismic hazard and Foundation.
Her Forensic engineering study incorporates themes from Data collection, Seismic loading, Probabilistic logic, Probabilistic framework and Frequency of exceedance. Her Induced seismicity study introduces a deeper knowledge of Seismology. Her Unreinforced masonry building study is concerned with the field of Structural engineering as a whole.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
DEVELOPMENT OF SEISMIC VULNERABILITY ASSESSMENT METHODOLOGIES OVER THE PAST 30 YEARS
G. M Calvi;R Pinho;G Magenes;J. J Bommer.
ISET Journal of earthquake technology (2006)
OpenQuake Engine: An Open Hazard (and Risk) Software for the Global Earthquake Model
M. Pagani;D. Monelli;G. Weatherill;L. Danciu.
Seismological Research Letters (2014)
The 2013 European Seismic Hazard Model: key components and results
Jochen Woessner;Danciu Laurentiu;Domenico Giardini;Helen Crowley.
Bulletin of Earthquake Engineering (2015)
A Probabilistic Displacement-based Vulnerability Assessment Procedure for Earthquake Loss Estimation
Helen Crowley;Rui Pinho;Julian J. Bommer.
Bulletin of Earthquake Engineering (2004)
Seismic Hazard Assessment (2003–2009) for the Italian Building Code
Massimiliano Stucchi;Carlo Meletti;Valentina Montaldo;Helen Crowley.
Bulletin of the Seismological Society of America (2011)
Simplified pushover-based vulnerability analysis for large-scale assessment of RC buildings
Barbara Borzi;Rui Pinho;Helen Crowley.
Engineering Structures (2008)
Development of the OpenQuake engine, the Global Earthquake Model’s open-source software for seismic risk assessment
Vitor Silva;Helen Crowley;Marco Pagani;Damiano Monelli.
Natural Hazards (2014)
Modelling Seismic Hazard in Earthquake Loss Models with Spatially Distributed Exposure
Helen Crowley;Julian J. Bommer.
Bulletin of Earthquake Engineering (2006)
Detailed assessment of structural characteristics of Turkish RC building stock for loss assessment models
I. E. Bal;Helen Crowley;Rui Pinho;F. Gülten Gülay.
Soil Dynamics and Earthquake Engineering (2008)
PERIOD-HEIGHT RELATIONSHIP FOR EXISTING EUROPEAN REINFORCED CONCRETE BUILDINGS
H. Crowley;R. Pinho.
Journal of Earthquake Engineering (2004)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: